Figure 1: International Falls
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Anomalous propagation echoes are not usually confined to a single direction. There are three possible explanations in this case and in other similar cases: a single real object was being tracked; the radar operators were not looking for targets on other azimuths; the partially reflecting layer may have been anisotropic (i.e. displaying a preferred direction for strongest reflection). There is no direct physical evidence for the existence of such anisotropic layers, but no studies have been made to determine whether or not they might exist. Apparent anisotropy in radar AP returns has often been observed, although not usually over such a narrow azimuth range as was apparently the case at Finland AFB.
Regarding the visual reports submitted, the comment of the investigating officer at Finland AFB is of particular interest:
The next evening, at 2200 hours, the "white-red-green" object reappeared in the sky at exactly the same position it had appeared on 5 September. This officer observed it and determined it to be a star which was near the horizon
and would settle beneath the horizon after midnight. It did appear to "sparkle" in red-green-white colors, but so do other stars which can be pointed out from this mountain top.
The officer refers to Rangoon Mountain, elevation 1,927 ft., from which many of the visual observations were made.
The star that the officer saw was in all probability Lambda Scorpio (Shaula) a magnitude 1.7 star at -37° declination and 17 hr. 31 min. right ascension. It would have set at just about 1:30 a.m. 90th meridian time, if the horizon were unobstructed. An obstruction of only 4° would cause Lambda Scorpio to "set" at 1:15 a.m. CST; a 4° angle is equivalent to a 35 ft. tree or building at a distance of 500 ft. The southerly declination would indicate that the star was in the southwest, which is compatible with the visual reports that were submitted.
Additional meteorological effects may have been present in this case. In particular, the southwesterly surface winds present are quite likely to have advected relatively cool, moist air from nearby Lake Superior under the elevated warm, dry layer noted previously, thus tending to increase the strength of the inversion and associated humidity lapse. Some of the optical effects noticed by the observers in this instance, strong red-green scintillation, apparent stretching of the image into a somewhat oval shape, and the red fringe on the bottom, may have been due to strong and irregular local refraction effects in the inversion layer (or layers).
This UFO report seems to have resulted from a combination of an unusually scintillating star and false radar targets caused by AP from a strong elevated layer in the atmosphere. This pattern is found in a number of other cases.
Reports with elements similar to the preceding case are:
113-B.* Nemuro AF Detachment, Hokkaido, Japan, 7 February 1953, 2230 LST (1230 GMT). Weather was clear. Visual description fits a scintillating star (flashing red and green, later white with intermittent
*Case numbers referred to thusly are so listed in the project's files.
1306-B. Edwards AFB, Kernville, Calif., 30 July 1967, 2217-2400 LST. Weather: clear, calm, warm (83°F). Two civilians reported observing one or two blue, star-like objects that appeared to circle, bob, and zigzag about a seemingly fixed star; these objects "instantly disappeared" about 1 hr. 45 min. after sighting. Edwards AFB RAPC0N radar picked up "something" at about 2230 LST "for several sweeps." Blip seemed to be moving south at about 50-60 mph. There is no apparent connection between the radar and visual reports. The visual UFO did not appear to move at 50-60 mph. Data, including weather data, on this report are insufficient to form an opinion. The most likely possibility seems to be that the visual LJFO consisted of the direct image plus one or two reflected images of the "fixed star" that the observer reported. What may have produced the reflected images remains conjectural. For example, a turbulent layer of air with strong temperature contrasts could produce images similar to those described by the witnesses. The instantaneous disappearance of the UFOs is consistent with an optical phenomenon.
1212-B. Tillamook, Ore., 13-14 March 1967, 2230-0008 LST. Weather: clear with "stars plainly visible," some ground fog, thin broken cirriform clouds estimated at 10,000 ft., visibility 15 mi. This is a good example of some of the confusion that arises in reporting UFO incidents. Initial visual observer reports indicated object at about 45° to 50° elevation angle, yet when the Mt. Hebo radar station "contacted target" it was at 39 mi. range, 9,200 ft. height. This is an elevation angle of only about 2°. This inconsistency seems to have gone unnoticed in the Project Blue Book file on the case. The radar target, as plotted, stayed at 39 mi. range and slowly increased height to 11,200 ft., then shifted almost instantaneously to 48 mi. range. Subsequently the radar target slowly gained altitude and range, disappearing at 55 mi. and 14,000 ft. (still at about a 2° elevation angle). The azimuth varied between 332° and 341° during this time. Average apparent speed of the radar track was low: the first part of the track was at zero ground speed and a climb rate of about 100 ft/min, the second part of the track was at an average ground speed of about 16 mph. and a climb rate of about 100 ft/min. In between there is a jump of 9 mi. range in one minute, a speed of 540 mph. The characteristics of this radar track are suggestive of radar false targets or slow-moving AP echoes. The jump may be a point where one echo was lost, and another, different echo began coming in. This effect is apparently a frequent cause of very high reported speeds of UFOs (Borden, 1953). The visual reports are suggestive of either a scintillating star if the reported angle is higher than actual, or an aircraft. There was an electronic warfare aircraft "orbiting" at high altitude seaward of Tillamook at the time of the sighting, and
115-B. Carswell AFB (Fort Worth area), Tex., 13 February 1953, 0235 LST. Weather: clear with visibility unlimited; temperature inversion layer with sharp humidity lapse at 3,070 ft. altitude, elevated radio duct at 4,240 ft. altitude. Applicable refractivity profile for 0300 LST shown in Fig.. 2. Visual observers saw a "formation" of three bright lights which performed a series of maneuvers suggestive of an aircraft with landing lights doing several rolls and then climbing rapidly and heading away. Operators then attempted to pick up the object on an APG 41 radar, and after about two minutes they brought in two apparently stationary targets on the correct azimuth. It seems likely that these returns were from ground objects seen via partial reflection from the strong elevated layers (gradients -154 and -311 km-1). The visual sighting was probably an aircraft.
237-B. Haneda AFB (Tokyo), Japan, 5-6 August 1952, 2330-0030 LST. Weather: "exceptionally good," 0.3 cloud cover about 10 mi. north and 10 mi. south of the contact area, "excellent visibility," isolated patches of low clouds, Mt. Fuji (60 n. mi.) "clearly discernible," scattered thunderstorms in mountains northwest, temperature at Haneda 78° F, dew point 73° F. Observers saw a bright, round light (about 1 mrad arc) surrounded by an apparently dark field four times larger, the lower circumference of which tended to show some bright beading. It was low in the sky at about 30° -50° azimuth. Object appeared to fade twice, during which time it appeared as a dim point source. It disappeared, possibly becoming obscured by clouds, after about an hour. The sky at Haneda AFB was overcast by 0100 LST. One of the visual observers noted that near the end of the sighting the object seemed somewhat higher in the sky and that the moon seemed proportionately higher in elevation. The pilot of a C-54 aircraft coming in for a
Figure 2: Carswell AFB
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When the controller at Shiroi AFB was asked to look for target on GCI radar, he could find nothing for 15 min. He stated: "There were three or four blips on low beam but none I could definitely get a movement on or none I could get a reading on the RHI (range-height indicator) scope." A new controller taking over at 2345 LST "believed" he made radar contact with the object and an F-94 was scrambled. This officer stated: "The target was in a right orbit moving at varying speeds. It was impossible to estimate speed due to the short distances and times involved." By the time the F-94 arrived in the area of the "bogie," Shiroi GCI had lost radar contact; regaining contact at 0017 LST "on a starboard orbit in the same area as before." The F-94 was vectored in to the target, and at this point the timing becomes confused. The Shiroi controller states that the F-94 "reported contact at 0025 (LST) and reported losing contact at 0028 (LST)." The F-94 radar operator states: "At 0016 (LST) I picked up a radar contact at 10° port, 10° below, at 6,000 yd. The target was rapidly moving from port to starboard and a lock-on could not be accomplished. A turn to the starboard was instigated [sic] to intercept target which disappeared on scope in approximately 90 sec. No visual contact was made with the unidentified target." Shiroi GCI had lost the F-94 in ground clutter, and had also lost the target. It is not clear whether the GCI radar ever tracked the fast-moving target described by the F-94 crew. The maximum range of the F-94's radar is not given in the Blue Book report.
The F-94 pilot stated that the weather was very good with "exceptional visibility of 60-70 miles," yet this fast-moving UFO, obviously far exceeding the F-94's airspeed about 375 knots), was seen by neither the aircraft crew nor the observers on the ground at Shiroi GCI even though the UFO track crossed over very close to Shiroi GCI number four. There are many other inconsistencies in the
Two things seem apparent:
- the object seen at Haneda and Tachikawa AFB was much farther away than the observers realized;
- the visual UFO and the target tracked by radar were not the same.
- During times when the GCI radar could not find the target, the visual object was in about the same location as during those times when it could be found on radar;
- The visual object was seen for at least five min. after the time when the airborne radar on the F-94 indicated that the UFO had left the area at a speed well in excess of 300 mph.
- interference effects associated with propagation within and near the top of an inversion, or
- a corona with a dark aureole produced by a mist of droplets of water of about 0.2 mm. diameter spaced at regular intervals as described by Minnaert (1954).
Nor can exact nature of the radar propagation effects be evaluated, due to the lack of complete weather data. However, a substantial inference that the radar returns were of an anomalous propagation nature is derived from:
- the tendency for targets to disappear and reappear;
- the tendency for the target to break up into smaller targets;
- the apparent lack of correlation between the targets seen on the GCI and airborne radars;
- the radar invisibility of the target when visibility was "exceptionally good."
In summary, it appears that the most probable causes of this UFO report are an optical effect on a bright light source that produced the visual sighting and unusual radar propagation effects that produced the apparent UFO tracks on radar.
104-B. Goose AFB, Labrador, 15 December 1952, 1915-1940 Local Mean Solar Time. Weather: clear and visibility unlimited (30 mi.). The crews of an F-94B fighter and a T-33 jet trainer saw a bright red and white object at 27° azimuth while flying at 14,000 ft. The aircraft attempted an intercept at 375 knots indicated air speed, but
The official Air Force explanation for this UFO incident is that the aircraft were chasing Venus which was setting about the time of the sighting, and that the radar "target" was simply a malfunction. It seems likely that this explanation is essentially correct. However, it is unlikely that experienced pilots would have chased a normal-appearing setting Venus. It is more probable that the image of Venus was distorted by some optical effect, possibly a slight superior mirage, and that loss of the mirage-effect (or the interposing of a cloud layer) caused the image to fade away. All items of the account may be explained by this hypothesis, including the report that the object had "no definite size or shape," as the image would no doubt be somewhat "smeared" by imperfections in the mirage-producing surface. The small-angle requirement of a mirage is satisfied since the pilots reported the object seemed to stay at the same level as the aircraft, regardless of altitude changes that they made (another indication of great distance).
14-N. This file actually consists of two similar cases reported by a Capital Airlines pilot with 17 years and 3,000,000 mi. logged. The first case occurred over central Alabama the night of 14 November 1956; the second case was on the night of 30 August 1957, over Chesapeake Bay near Norfolk, Va.
The first sighting took place about 60 mi. NNE of Mobile, Ala. while on a flight from New York to Mobile in a Viscount at "high altitude," probably about 25,000 ft. It was a moonless, starry night
The whole incident took about two minutes. The pilot remembers noting that the time was 2212 EST. The object appeared to be at the same distance from the aircraft, which was flying a little faster than 300 mph. during the entire episode.
This object "dissolved right in front of my eyes, and the crew above lost it from the scope at the same time. They said it just faded away. This sighting covered "several minutes."
These two similar sightings are very difficult to account for. The first sighting over Alabama has most of the characteristics of an optical mirage: an object at about the same altitude seeming to "pace" the aircraft, the meanderings being easily accountable for as normal "image wander." However, there are two aspects that negate this hypothesis:
- the manner of appearance and disappearance of the UFO is inconsistent with the geometry of a mirage; the high angle of appearance at the top of the windshield is particularly damaging in this regard;
- there was no known natural or astronomical object in the proper direction to have caused such a mirage. Venus, the only astronomical object of sufficient brightness, was west of the sun that date; Saturn had set 4 hr. 30 mm. earlier, and there was not even a first magnitude star near l90° -2l0° azimuth, 0° elevation angle.
- the apparent angle at which the object was observed is incompatible
with a mirage;
- there was apparently a radar return obtained from the object which is incompatible with the hypothesis that it was an astronomical object, the most likely mirage-producer.
In summary, these two cases must be considered as unknowns.
1065-B. Charleston, S. C., 16 January 1967, 1810 LST. The observational data in this case are insufficient to determine a probable cause for the sighting. A civilian "walked out of his house and saw" two round objects. He estimated that they were about 30° above the horizon. They appeared to be "silver and blue, with a red ring." These objects were alternately side by side and one above the other, and a beam of light issued "from the tail end." The observer does not state how he knew which was the "tail end," or even at what azimuth he saw the objects. They "vanished in place," still at 30° elevation. After the Charleston AFB was notified of the sighting, some unidentified returns were picked up on an MPS-14 search radar. An investigating officer later determined that these returns were spurious. The case file states:
[The officer] called [8 March 1967] to provide additional information in regard to the radar sighting. [The officer] was informed by the Charleston AFB that the radar paints were not of UFOs. A check of the equipment was made and it was learned that the individual monitoring the radar set had the "gain" [control] on the height finder turned up to the "high" position. This caused the appearance of a lot of interference on the radar scope. Personnel at Charleston AFB determined the paints on the radar to be this interference. The personnel turned the gain on high again and picked up more "UFOs". When the gain was turned down the UFOs disappeared.
There apparently were no radar UFOs in this case. The residue is a visual sighting by a single observer with insufficient data for evaluation. What the observer saw could conceivably have been
- a mirage with direct and reflected images of a planet (Jupiter w'as at 68° azimuth, 5° elevation) or a bright star,
- an aircraft, or
- a genuine unknown (i.e., a possible ETI object). There is no real evidence either for or against any of these possibilities.
Class I-B: Primarily visual, meteor-like cases.
1323-B. Sault Saint Marie AFB, Mich., 18 September 1966, 0100 LST. Weather: clear, calm. There is a very brief Blue Book file on this incident. Two sergeants of the 753rd Radar Squadron saw a bright light, ellliptical in shape and apparently multicolored of unsaturated hues, which appeared low over the treetops to the SE and moved in a straight line toward the west, disappearing "instantaneously" in the WSW. Duration of this sighting was 2-5 sec. The report states that the object was also tracked by a long-range AN/FPS-90 heightfinder with azimuth, range, and altitude "available on request." Since this
The general visual appearance, brightness range, motion and mode of disappearance are all compatible with the hypothesis that the object was a large meteor. Some large meteors display even more unusual appearance than this report. If it was a meteor, the radar may have actually tracked it; radar tracks of large meteors are not unknown. Of course, the radar track may have been spurious, or may have indicated that the object was unnatural. The tracking data would be required to settle the point.
The radio refractivity profile for 0600 LST, shown if Fig. 3 indicates that an intense super-refractive layer existed within the first 372 m. (1220 ft.) above the surface. This profile is conducive to the formation of AP echoes on ground-based radar, so there is some possibility that the observed radar data in this UFO incident may have been spurious. This case would seem to merit further investigation.
1206-N. Edmonton, Alberta, 6 April 1967, 2125-2200 LST. Weather: "very clear," cool, temperature about 35°F, little or no wind at surface, stars "bright," no moon. Observers state that a bright object appeared in the NNW low on the horizon, moving fast, appeared to hover, and then disappeared. The night before, a whitish object like a normal star "only much larger" had appeared in the same place (NNW). A Pacific Western Airlines pilot independently reported "chasing" a UFO whose position was relayed to him by GCA radar from Edmonton International Airport. This UFO appeared to move somewhat erratically, was seen only briefly by the pilot as a "reddish-orange lighted effect," and did not travel the same course as the visual object described above.
The general atmospheric conditions prevailing during this sighting were conducive to AP. The description of the GCA radar track is suggestive of AP (quasi-stationary target appearing to "jump" in position), and the description of the UFO of 5 April is suggestive of the diffracted image of a star seen through a sharp temperature
1207-B. Paris, Tex., 7 March 1967, 1645 LST. Weather: clear,
visibility 15 mi. This is an unconfirmed report by a single observer
who could not even be reached for verification of the report by
members of this project staff. He claimed to have seen two lights
that "made a 90° turn at high speed, appeared to separate and
come back together again and then went straight up. Speed varied from
fast to slow to fast, in excess of known aircraft speed." The last
statement is the witness's interpretation. He stated that radar at
Paris AFB had tracked this UFO, but all military radar installations
in the area disclaim any UFO tracks that night. It seems probable
that the visual sighting was either an aircraft, whose sound was not
heard by the witness for some reason, or a pair of meteors on close,
nearly parallel paths. The quick dimming of a meteor burning out may
be interpreted as a 90° turn with sudden acceleration away from
the observer of a nearly-constant light source, which then seems to
disappear in the distance.
15-B. Blackhawk and Rapid City, S. Dak., and Bismarck, N.
Dak., 5-6 August 1953, 2005-0250 LST. Weather: clear, excellent
visibility, stable conditions, temperature inversions and radio
surface ducts prevalent. See Fig. 4. The night was dark and
moonless.
The initial incident in this chain of UFO sightings was the sighting
by a GOC (Ground Observers Corps) observer of a stationary "red
glowing light" at 2005 LST near Blackhawk, S. Dak. This light soon
began to move some 30° to the right, "shot straight
up," and moved to the left, returning to its original position. A
companion thought it was "just the red tower light" (a warning light
on an FM
Over the course of the next four hours a large number of unidentified
blips appeared on the Rapid City radar. Many of those were
transitory, moving blips with a fairly short lifetime, usually being
"lost in the ground clutter." An F-84 fighter was vectored in to a
stationary blip near Blackhawk, and the pilot "chased" a UFO which he
found at the location on a heading of 320 ° M. without gaining on
it. The F-84 was probably chasing a star, in this case Pollux (mag.
1.2) which was in the correct location (335° true azimuth, near
the horizon).
When the Blackhawk GOC post called in that the original object had
returned for a third time, another F-84 was vectored in on the visual
report. as no radar contact could be made. The pilot made a visual
contact" and headed out on a 360 ° magnetic (~15° true)
vector. At this point the radar picked up what apparently was ghost
echo, that is, one that "paced" the aircraft, always on the far side
from the radar. The fighter in this instance was probably chasing
another star, the image of which may have been somewhat distorted.
The pilot's report that the visual UFO was "pacing" him appears to
have strengthened the radar operator's belief that he was actually
tracking the UFO, and not a ghost echo. The star in this instance may
well have been Mirfak (mag. 1.9), which, at 2040 LST, was at azimuth
15 ° and about 5 ° to 7 ° elevation angle. The second
pilot, upon being interviewed by Dr. Hynek, stated that he felt he
had been chasing a star, although there were some aspects of the
The Bismarck, N. Dak. sightings began when the Bismarck Filter Center
was alerted to the "presence of UFO's" by Rapid City. At 2342 LST the
sergeant on duty there and several volunteer observers went out on
the roof and shortly spotted four objects. The descriptions of these
objects by the various observers were consistent with the hypothesis
that they were stars, although some apparent discrepancies caused
early AF investigators to deduce by crude triangulations that the
sighted objects must have been nearby. It now appears that all four
objects were stars viewed through a temperature inversion layer. The
observers stated that the objects resembled stars, but that their
apparent motion and color changes seemed to rule out this
possibility.
Dr. Hynek's summary of the probable nature of the four Bismarck
objects is enlightening:
Object #1, which was low on the horizon in the west and disappeared
between midnight and 0100 hr. was the star Arcturus observed through
a surface inversion. Arcturus was low on the horizon in the west and
set at approximately 1220 (LST) at 289 ° azimuth.
Object #2 -- was the star Capella observed through a surface
inversion. At 0011 CST Capella was at 40° azimuth and 15 °
elevation ... [and] at 0200 CST [it] was at 53° azimuth and
30 ° elevation, which agrees with the positions given by [the two
witnesses].
Objects #3 and #4 were, with a high degree of probability, the planet
Jupiter and the star Betelgeuse, observed through
a surface inversion. Jupiter's ... stellar magnitude was -1.7 [and
it] was low on the eastern horizon at approximately 92° azimuth.
Betelgeuse ... was also low on the eastern horizon at approximately
81 ° azimuth.
The statement of one of the witnesses at Bismark includes the
following comments:
... they appeared much brighter than most of the stars and at times
appeared to take ona rather dull bluish tint.
They appeared to move in the heavens, but at a rather slow rate and
unless a person braced his head against some stationary object to
eliminate head movement it would be hard to tell that they were
moving.
The one in the west eventually disappeared below the horizon and the
one in the northeast gradually seemed to blend in with the rest of
the stars until it was no longer visible.
The last statement is typical of the description given by witnesses
who have apparently observed a bright star rising through an
inversion layer. It would seem to be circumstantial evidence of the
diffraction-brightening predicted by Raman for propagation along an
inversion layer (see Section VI Chapter 4). However, there is an
alternative explanation that simple diffractive blurring or smearing
of a star's image, by spreading the available light over a larger
area of the eye's retina, may cause a psychological illusion of
brightening of the object.
The meteorological conditions were generally favorable for anomalous
propagation at both locations. The refractivity profile for Rapid
City 2000 LST 5 August shows a 0.5 ° C temperature inversion over
a layer 109 m. thick, although the resulting refractivity gradient is
only -77 km-1 (Fig. 5). The 0800 LST profile (Fig. 6)
shows a pronounced elevated
The Bismarck profile for 2100 LST 5 August (Fig. 4) shows a 1.2°C
temperature inversion between the surface and the 109 m. level, the
resulting layer forming a radio duct with a refractivity gradient
-182 km-1. It is noteworthy that the Bismarck sightings
show more evidence of optical inversion-layer effects than the Rapid
City sightings.
In summary, the Rapid City-Bismarck sightings appear to have been
caused by a combination of:
All of a sudden they would lose it, or something. They had it and
then they didn't, they weren't sure. There was a lot of confusion
involved in it. They'd give you these headings to fly. It would
appear to just -- they had maybe a hovering -- capability and then it
would just be in a different location in no time at all.
This type of behavior is typical of moving AP targets. The elevated
duct shown on the Fort Worth profiles is very thick, and seems fully
capable of causing these effects.
In summary, it is possible to account for the major details of the
sighting through three hypotheses:
In view of these considerations, and the fact that additional
information on this incident is not available, no tenable conclusion
can be reached. From a propagation standpoint, this sighting must be
tentatively classified as an unknown.
Over Labrador, 30 June 1954, 2105-2127 LST. Weather: (at
19,000 ft.) clear, with a broken layer of stratocumulus clouds below,
excellent visibility. No radar contact was made in this incident. A
summary of the pilot's first-hand account of his experience reads:
I was in command of a BOAC Boeing Strato cruiser en route from New
York to London via Goose Bay Labrador (refuelling stop). Soon after
crossing overhead Seven Islands at 19,000 feet, True
Airspeed 230 kts, both my copilot and I became aware of something
moving along off our port beam at a lower altitude at a distance of
maybe five miles, in and out of a broken layer of Strato Cumulus
cloud. As we watched, these objects climbed above the cloud and we
could now clearly see one large and six small. As we flew on towards
Goose Bay the large object began to change shape and the smaller to
move relative to the larger....
We informed Goose Bay that we had something odd in sight and they
made arrangements to vector a fighter (F94?) on to us. Later I
changed radio frequency to contact this fighter; the pilot told me he
had me in sight on radar closing me head-on at 20 miles. At that the
small objects seemed to enter the larger, and then the big one
shrank. I gave a description of this to the fighter and a bearing of
the objects from me. I then had to change back to Goose frequency for
descent clearance. I don't know if the fighter saw anything, as he
hadn't landed when I left Goose for London.
The description of the UFO in this case, an opaque, dark
"jellyfish-like" object, constantly changing shape, is suggestive of
an optical cause. Very little meteorological data are available for
this part of the world on the date in question, so that the presence
of significant optical propagation mechanisms can be neither
confirmed nor ruled out. Nevertheless, certain facts in the case are
strongly
There remains the slim possibility that the aircraft itself produced
the mirage layer through intensification (by compression induced by
the shockwave of the aircraft's passage through the air) of a barely
subcritical layer, i.e., one in which the temperature gradient
is just a little bit less than the value required to produce a
mirage. This hypothesis would satisfy the directional requirement of
the sighting, but the resulting scheme of hypotheses is too
speculative to form an acceptable solution to the incident.
This unusual sighting should therefore be assigned to the category of
some almost certainly natural phenomenon, which is so rare that it
apparently has never been reported before or since.
304-B. Odessa, Wash., 10 December 1952, 1915 LST. Weather:
clear above undercast at 3,000 ft.; aircraft at 26,000-27,000 ft.
Two pilots in an F-94 aircraft sighted a large, round white object
"larger than any known type of aircraft." A dim reddish-white light
seemed to come from two "windows." It appeared to be able to "reverse
direction almost instantly," and did a chandelle in front of the
aircraft. After this the object appeared to rush toward the aircraft
head-on and then would "suddenly stop and be pulling off." The pilot
banked away to avoid an apparently imminent collision, and lost
visual contact. Fifteen minutes later the aircraft radar picked up
something which the crew assumed was the UFO, although there
This sighting has been described as a mirage of Venus, although the
reported 75 knot speed and 270° direction of motion is in
contradiction to this hypothesis. The general description of the
object as well as the reported motion is suggestive of a weather
balloon. However, the peculiar reversals of direction, although they
could have been illusory, and particularly the loss of visual contact
are at odds with the balloon hypothesis.
The radiosonde profile for Spokane, 1900 LST, is shown in Fig.9 and
is inconclusive. The tropopause, where the sharpest temperature
inversions are likely, is at about 30,500 ft. above sea level, too
high to have produced a mirage visible at 26,000 -27,000 ft.
The closeness of the timing between the radiosonde release at 1900
LST and the sighting at 1915 LST suggests that the F-94 crew may have
seen a lighted pibal balloon. The description given, including the
two dimly-lit "windows," is typical of the description of a pibal
balloon by those not familiar with weather instrumentation. Such a
balloon would rise to at least 17,000 ft. in 15 min., and the
reported motion, 270° at 75 knots, is in excellent agreement
with the upper winds at the highest level plotted for the Spokane
profile: 280° at 66 knots at 18,000 ft.
19-X. [361-B]. Kirtland AFB, Albuquerque, N.M., 4 Nov. 1957,
2245-2305 LST. Weather: scattered clouds with high overcast,
visibility good, thunder-storms and rain showers in vicinity, light
rain over airfield. Observers in the CAA (now FAA) control tower saw
an unidentified dark object with a white light underneath, about the
"shape of an automobile on end," that crossed the field at about 1500
ft. and circled as if to come in for a landing on the E-W runway.
This unidentified object appeared to reverse direction at low
altitude, while out of sight of the observers behind some buildings,
and climbed suddenly to about
The Air Force view is that this UFO was a small, powerful private
aircraft, flying without flight plan, that became confused and
attempted a landing at the wrong airport. The pilot apparently
realized his error when he saw a brightly-lit restricted area, which
was at the point where the object reversed direction. The radar blip
was described by the operator as a "perfectly normal aircraft
return," and the radar track showed no characteristics that would
have been beyond the capabilities of the more powerful private
aircraft available at the time. There seems to be no reason to doubt
the accuracy of this analysis.
1482-N. About 15 mi. east of Utica, N. Y., 23 June 1955,
1215-1245 LST. Weather: overcast at 4,000 ft., visibility good below.
Reported by the co-pilot of a Mohawk Airlines DC-3. They were
cruising at 3,000 ft. at 160 knots, when he noticed an object passing
approximately 500 ft. above at an angle of about 70° (20°
from vertical). It was moving at "great speed." The body was "light
gray, almost round, with a center line .... Beneath the line there
were several (at least four) windows which emitted a bright
blue-green light. It was not rotating but went straight." The pilot
also saw this UFO; they watched it for several miles. As the distance
between the DC-3 and the UFO increased, the lights "seemed to change
color slightly from greenish to bluish or vice versa. A few minutes
after it went out of sight, two other aircraft (one, a Colonial DC-3,
the other I did not catch the number) reported that they saw it and
wondered if anyone else had seen it. The Albany control tower also
reported that they had seen an object go by on Victor-2 [airway]. As
we approached Albany, we overheard that Boston radar had also tracked
an object along Victor-2, passing Boston and still eastbound."
The residue is a most intriguing report, that must certainly be
classed as an unknown pending further study, which it certainly
deserves. Statements from some. of the other witnesses involved would
help in analyzing the event, and should prove useful even 13 years
after the fact. It does appear that this sighting defies explanation
by conventional means.
10-X. [371-B.] Continental Divide, N. M., 26 January 1953,
2115-2200 LST. Weather: high, thin overcast, low scattered clouds,
very good visibility. An airman stationed at the 769th AC&W Squadron
at Continental Divide (elevation 7,500 ft.) observed a "bright
reddish-white object" about 10 mi. west of the radar site and
approximately 2,000 ft. above the terrain. The radar subsequently
painted a strong, steady return at 9 mi. range and about 2,500-7,500
ft. above the surface. This object passed behind a nearby hill and
reappeared, heading north at about 10-15 mph. Radar track confirmed
this. The object then moved to the west at 12-15 mph to a point 18
mi. west of the radar site. It then turned north for about 10 mi.,
and subsequently turned back on a heading of 128° inbound to the
station. Radar and visual contact was lost near the area where the
object was first detected. Before disappearing, the object seemed to
shrink in size and fade in color to a dull red.
There seems to be little doubt in this case that the visual and radar
contacts were in fact of the same object. The obvious
The problem of the observed direction of movement cannot be
completely resolved, because it depends largely on an analysis
of mesoscale
Although the general windflow in the Arizona-New Mexico area for at
least the 700 and 500 mb maps is from the west, there are indications
of a secondary mesoscale circulation somewhere in the vicinity of the
Arizona-New Mexico border, which is embedded in the general trough
overlying the southwestern states. Especially significant are the
winds at the 700 and 500 mb levels at Tucson and at Phoenix, mainly
at the 500 mb level, which show evidence of a mesoscale cyclonic
circulation in the area.
In view of the general meteorological situation at the time, a quite
likely explanation for the Continental Divide sighting is as follows:
The Winslow pibal balloon, which was leaking, was carried away to the
east, probably sinking slowly as it went, and was lost from view of
the Winslow weather station. Upon reaching the general vicinity of
Gallup, N. M. the leaking balloon was probably caught up in a local
cyclonic vortex and updraft, which, being instigated by the mesoscale
cyclonic flow in the region may have formed on the windward side of
the range of low mountains forming the Divide in that area. This
would have caused the balloon to be carried toward the north, slowly
rising, as first observed. This would be followed in sequence by a
turn to the west, and ultimately, upon reaching a somewhat higher
level, a turn toward the southeast again as the balloon became caught
in the more general flow from the west and northwest prevailing at
middle levels in the atmosphere.
This hypothesis fits the details of the observations rather well, and
considering the lack of additional information or data
321-B. Niagara Falls, N. Y., 25 July 1957, 0025 LST. Weather:
clear, excellent visibility. Observers saw a "circular brilliant
white object with pale green smaller lights around its perimeter."
Object appeared to move slowly at nearly constant altitude, and then
went into a "fast, steep climb," disappearing in about 5-8 min. The
object was tracked on a CPS-6B radar for about 3 min. moving from SW
to NE, in agreement with prevailing winds in the area.
The rate of climb could not have been very great, or the object would
not have remained in sight for "five to eight" minutes. The official
AF view is that the object was a lighted balloon, and in the absence
of other data or a more complete file on the case, there seems to be
no more likely explanation.
1211-B. McChord AFB, Seattle, Wash., 2
October 1959, 0020-0320 LST. Weather: clear, fog moved in at 0150
LST after initial sighting, wind from 100 at 10 knots (approx.).
Radar at McChord AFB picked up a total of five or more unidentified
tracks between 0020 to 0320 LST. These targets appeared to be at
elevation angles of about l0° -20° and azimuths of l70°
-l90°. The range would change from 4,000 yd. to 8,000 yd., and
the flight patterns were described as "erratic;" returns would
occasionally appear in pairs. The radar blips were described as
"weak." Data on the vertical beam width and the antenna pattern
characteristics of the radar are lacking.
Visual observers were apparently told to go outside and look for an
UFO at about 10° elevation and 190° azimuth. They found
When "last seen," at about 0150 LST, the object was reported to be
about 20° elevation and 170° azimuth. At that time another
bright star (0.7 magnitude fainter than the first one) was located at
about 172° azimuth and about 10° elevation, values
commensurate with the apparent visual position (again, assuming
over-estimate of elevation angle). Near the horizon these were the
only two stars of third magnitude or greater in that part of the sky
at that time.
The description of the radar targets, weak, erratic blips, together
with the reported formation of a low-level fog (that hindered visual
observations after 0150 LST), suggests the presence of a shallow
temperature inversion-humidity trap that was producing AP echoes on
the radar set. The UFO report states that temperature inversions were
"prevalent" in the area.
In summary, this UFO incident appears to have been caused by radar AP
echoes and associated visual star sightings, both observed at small
angles through a surface temperature inversion-humidity trap layer.
103-B. Gulf of Mexico, off Louisiana coast (28° N 92°
W), 6 December 1952, 0525-0535 LST (1125 GMT). Weather: clear, dry,
light winds, visibility excellent, full moon. The radio refractivity
Visual observations consisted of one or two blue-white flashes, one
of which, as viewed from the waist blister, appeared to pass under a
wing of the aircraft. All of these may have been above the horizon,
since the wingtip would appear well above the horizon as viewed from
this position. The observers stated that the flashes "did not alter
course whatsoever." These visual sightings were probably Geminid
meteors; the wing operations officer stated: "Visual sightings are
indecisive and of little confirmatory value."
One of the radar witnesses stated: "One object came directly towards
the center of the scope and then disappeared." After 10 min. of radar
observation, a group of the blips merged into a half-inch curved arc
about 30 mi. from the aircraft at 320° relative azimuth and
proceeded across and off the scope at a computed speed of over 9,000
mph. After this, no more unidentified returns were noted on the
radar.
The radar returns obtained in this incident were probably caused by
the deep super-refractive layer near the surface shown in Fig. 12.
The strange moving targets seen on the radar were probably caused by
imperfections in the atmospheric layer forming the radio duct,
allowing the radio energy to enter the ducting layer at various
points. This would create sporadic ground returns. The returns may
have been caused by a series of gravity waves running along the
ducting layer in a SE direction; this is a phenomenon which is at
present only poorly understood. In any event, spurious radar images
have often been noted under propagation conditions of this sort,
often moving at apparent speeds of from tens to thousands of miles
per hour.
In summary, it seems most likely that the cause of this sighting can
be assigned to radar AP, for which there is meteorological evidence,
and meteors.
7-C. White Sands Missile Range, N. M., 2 March 1967,
1025-1132 LST. Weather: apparently clear (few meteorological data are
available). A single witness at the summit of highway 70 over the
Sacramento Mountains (Apache Summit, 9,000 ft. elevation) reported
seeing "silvery specks" passing overhead from north to south. The
witness called Holloman AFB, and range surveillance radar was
requested to look for the objects. Two aircraft were scrambled, but
neither reported a sighting, although they searched the area where
the UFOs were reported.
The probable nature of each of the three types of radar contact made
is examined below.
The aircraft at this time was about 30 mi. NW of downtown Detroit,
and the targets "appeared to be over the city's central section." The
pilot turned the aircraft to an intercept course. During this time,
perhaps "three or four minutes," the objects were visible to the
pilot as "a ragged formation traveling slowly in a westward
direction;" the objects appeared to be "a little lower than our
aircraft." The pilot started his intercept run under full military
power, without afterburner, at approximately 500 mph.
The pilot recalls thinking several times that details of the
unknowns, like wings, tails, etc. should have "popped out" as they
approached, so that identification could be made, but they did not.
The ground radar had both the F-94B and the unknowns "painted as
good, strong targets." The unknowns could still not be identified,
but "seemed to get a little larger all the time."
The F-94B's radar operator began to get returns and "thought he was
picking up the targets." The pilot looked at his instruments to see
if he could "inch out a little more speed without going into
after-burner," and when he looked up again "every last one" of the
objects was gone. The pilot asked GCI where the UFOs were, and was
told they were still there, "loud and clear." They continued to fly
headings given by GCI right into the center of the targets, flying
and turning in "every direction," but there was nothing in sight. The
pilot states: "Gradually the targets disappeared from ground radar
after we had been amongst them for three or four minutes." The F-94B
then returned to base.
Since the exact date of this sighting is unknown, no applicable
meteorological data are available. Any explanation of this incident
There is one hypothesis that seems to fit all of the observed facts:
that the "ragged formation" was actually an inferior mirage (see
Section VI, Chapter 4). The angular conditions are satisfied: the
objects appeared "slightly below the level of the aircraft," and
reflections of the sky above the horizon would seem dark when seen
projected against the hazy sky directly over the city. A layer of
heated air, trapped temporarily below a cooler layer by a stable
vertical wind shear, could produce a wavy interface that would
reflect the sky in a few spots. This phenomenon is quite similar to
the familiar road mirage. Like, a road mirage it suddenly disappears
when one gets too close and the viewing angle becomes either too
large or too small.
If the warm air below, the source of which would presumably have been
the downtown area of Detroit, were also considerably moister than the
cooler air above as is quite probable, then the radio refractive
index would decrease quite suddenly across the inter-face. This
would tend to produce anomalous propagation effects, including false
echoes, on radar, and would explain why ground radar could continue
tracking the unknowns when the pilot and airborne radar operator
could no longer see them. The airborne radar, being immersed in the
layer would probably not receive AP echoes of any duration other
than, perhaps, occasional random blips.
In summary, without the data to make a more definitive evaluation of
this case, the most likely cause seems to be a combined radio-optical
mirage as described above. If so, this is another example of a
natural phenomenon so rare that it is seldom observed: for a
0.25° critical mirage angle, the temperature contrast required is
on the order of 10° or 15°C in the space of about 1 cm.
Weather: mostly clear, a few scattered clouds, visibility 10 to 15
mi., temperature 76° to 87°F, dewpoint 61° to 72°F,
surface winds from SE, light, near surface, from 300° to 320°
aloft, light. Radio refractive index profiles are shown in Figs. 13,
14, and 15, in Md., at an elevation of 88 m. (289 ft.) above sea
level. There are a tremendous number of reports of UFOs observed on
these two nights. In most instances visual observers, especially in
scrambled aircraft, were unable to see targets indicated on ground
radar, or to make airborne radar contact. Ground radar observers were
often able to find a return in the general area of reported visual
contacts, especially in the case of ground visual reports where only
an azimuth was given. A few excerpts from typical reports during
these incidents are given below:
Control tower operator, Andrews AFB, 0100 to 0500 EST, 20 July 1952:
An airman became excited during the conversation and suddenly yelled
"there goes one." I saw a falling star go from overhead a short
distance south and burn out. About two minutes later (the airman)
said, "There's another one;
did you see the orange glow to the south?" I said I thought I saw it,
but he pointed south and I had been looking south-west. I went up on
the roof---and watched the sky in all directions. In the meantime
Washington Center was reporting targets on their radar screen over
Andrews. Andrews Approach Control observed nothing.
[The airman] was in the tower talking on the phone and interphones.
He was watching a star and telling various people that it was moving
up and descending rapidly and going from left to right, and [another
airman] and I, listening to him from the roof, believed we saw it
move too. Such is the power of suggestion.
This star was to the east slightly to the left of and above the
rotating beacon. [The airman] reported the star as two miles east of
Andrews and at an altitude of 2,000 ft.
A short time later, approximately 0200 hours, I saw a falling star go
from overhead to the north. A few minutes later another went in the
same direction. They faded and went out within two seconds. The sky
was full of stars, the Milky Way was bright, and I was surprised that
we did not see more falling stars.
All night Washington Center was reporting objects near or over
Andrews, but Andrews Approach Control could see nothing, however they
could see the various aircraft reported so their [radar] screen was
apparently in good operation.
At 0500 hours Washington Center called me and reported an unknown
object five miles southeast of Andrews field. I looked and saw
nothing, That was the last report I heard.
A USAF Captain at Andrews AFB radar center:
Airman [X] called the tower and reported he had seen objects in the
air around Andrews; while we were discussing them he advised me to
look to the south immediately. When I looked there was an object
which appeared to be like an orange ball of fire, trailing a tail; it
appeared to be about two miles south and one half mile east of the
Andrews Range [station]. It was very bright and definite, and unlike
anything I had ever seen before. The position of something like that
is hard to determine accurately. It made kind of a circular movement,
and then took off at an unbelievable speed; it disappeared in a split
second. This took place around 0005 EST. Seconds later, I saw another
one, same description as the one before; it made an arc-like pattern
and then disappeared. I only saw each object for about a second. The
second one was over the Andrews Range; the direction appeared to be
southerly.
The account of a staff sergeant at Andrews AFB follows. He was
apparently describing the same object that the radar center Captain
had observed.
Later on we spotted what seemed to be a star north-east of the field,
which was in the general direction of Baltimore. It was about tree
top level from where I was watching. It was very bright but not the
same color (as some apparent meteors). This was a bluish silver. It
was very erratic in motion; it moved up from side to side. Its motion
was very fast. Three times I saw a red object leave the silver object
at a high rate of speed and move east out of sight. At this time I
had to service a C-47 and lost sight of it for the night. The time
was about 0330.
The radar tracks reported, at various times, from Washington National
Airport, Andrews AFB, and Bolling AFB are generally not correlated
with each other, with airborne radar/visual observations, or with
ground visual reports, except in a very general way, e.g., a star
sighted on the azimuth supplied by the radar track.
An investigation of the radar tracks reported by Borden and Vickers
(1953) is very informative. The authors observed, on the night of
13-14 August 1952, radar tracks very similar to those described in
the 19-20 and 25-27 July incidents. The targets appeared to move
with the upper winds at various levels at twice the observed wind
speed, suggesting that they were ground returns seen by partial
reflections from moving atmospheric layers of relatively small
horizontal extent (i.e., patches of local intensification of a
general super-refractive stratum). Borden and Vickers state:
The almost simultaneous appearance of the first moving targets with
the [stationary] ground returns, [the latter] signifying the
beginning of the temperature inversion, suggested that the target
display was perhaps caused by some effects existing in or near the
inversion layers.
The authors also relate similar target patterns observed during
testing of a new radar at Indianapolis in November, 1952. They state:
Targets were larger, stronger, and more numerous than those observed
by the writers during the Washington observations. At times the
clutter made it difficult to keep track of actual aircraft targets on
the scope.
The atmospheric conditions in existence at the times of these UFO
incidents, as shown in Figs. 13, 14, and 15, are rather peculiar.
Refractivity profile for 19 July 2200 LST shows a surface inversion
of l.7° C (3.1° F) but the resulting refractivity gradient is
only -81 km-1, about twice the "standard" value. There is
a rather unusual subrefractive layer at 3833 to 4389 m. produced by
overlying moist air. Relative humidity drops from 84% at surface to
20% at base of this layer, then climbs to 70% at top of the layer. A
number of significant levels are missing from this profile, which is
common in 1952 Silver Hill profiles, but even so it is indicative of
unusual atmospheric conditions. The radar sightings were made between
2340 LST and 0540 LST (July 20), and the atmospheric stratification
was no doubt more strongly developed by that time. In addition,
Silver Hill is at an elevation of 88 m. (289 ft.) above MSL, whereas
Washington National Airport is at an elevation of only 13 m. (43
ft.). The intervening 75 m. is precisely that part of the atmosphere
in which some of the most spectacular super-refractive and ducting
layers would be expected to develop. Indeed, records for 1945-1950,
during which radiosonde upper-air soundings were launched from
Washington National Airport, reveal a much stronger tendency for the
formation of anomalous propagation conditions than the Silver Hill
data.
The profiles for 25 July and 26 July, 2200 LST are more complete than
the 19 July profile, although some significant levels were noted as
missing from the 26 July profile. Otherwise, the foregoing comments
apply to these profiles as well. The 25 July profile shows a super-
refractive surface layer and a strong elevated duct; there is a
4.6°C (8.3° F) temperature inversion through the elevated
duct. It is perhaps significant that unidentified radar targets began
appearing at 2030 LST
In summary, the following statements appear to be correct:
Weather: clear, temperature 61° F to 70°F, wind at surface:
light from WSW. This is classed as primarily radar since the bulk of
the reports were from radar and the first visual object was never
described. The refractivity profiles for Topeka, Kans. and Oklahoma
City, Okla are shown in Figs. 16 and 17.
During the early morning hours of 2 August 1965, the Wichita Weather
Bureau Airport Station was contacted by the dispatcher of the
Sedgwick County Sheriffs Department with regard to an object sighted
in the sky near Wellington, Kans. (25 mi. south of Wichita). The
radar operator, Mr. John S. Shockley observed what appeared to be an
aircraft target near Udall, Kans., 15 mi. northeast of Wellington.
This target moved northward at 40 to 50 mph.
During the next hour and a half several of these targets were
observed on the radar scope over central Kansas moving slowly
northward occasionally remaining stationary, or moving about
erratically.
Later, a target was observed about seven miles NNW of Wellington,
Kans., moving slowly southward. The Wellington Police Department was
contacted and two officers went three miles west of the city, to see
if they could observe anything. The target passed about one mile west
of the city as observed on radar. The officers did not observe it
until it was southwest of the city. They described it as a
greenish-blue light that moved slowly away from them.
The dispatcher called again, with a report that two officers at
Caldwell, Kans. (35 mi. south of Wichita) had sighted an object near
the ground east of the city. A target was observed about two miles
northwest of the city that moved northward and disappeared.
At daybreak, the dispatcher reported that the Wellington officers had
an object in sight east of the city. Radar indicated a target in that
area moving southward about 45 mph. Four or five people stopped their
cars and watched the object with the officers. It was described as an
egg-shaped object about the size of three automobiles, made of a
highly polished silver metal.
Shortly after 0600C, a target was observed five miles north of
Wellington moving southward. The target moved directly over the city
to a point ten miles south of the city where it disappeared. The
officers in Wellington were contacted but were able to observe
absolutely nothing in the sky overhead during that time.
The radar was operated in long pulse, at 50 mi. range, with STC off.
The targets were coherent and appeared from six to nine thousand feet
on the RHI scope during the early morning and about four or five
thousand feet later in the morning.
The descriptions of most of the visual objects in this sighting are
too cursory to allow for any reasonable conjecture as to the real
In most instances the radar targets did not seem directly related to
the visual UFOs. This is characteristic of radar anomalous
propagation returns.
The refractivity profiles both show highly refractive surface layers,
with a 6.7° C (12.1° F) surface inversion at Topeka and a
9.7°C (17.5°F) surface inversion at Oklahoma City. In
addition, the Topeka profile shows a strong elevated layer at 2720 m.
with a 0.6°C inversion. The temperature inversion at Oklahoma
City produced a surface layer having an optical refractivity gradient
(at 5570Å of -101 km-1; this layer would extend the
theoretical optical horizon for the eye of an observer 2 m. above the
surface of a smooth earth from the normal value of 5.6 km. (9 mi.) to
8.5 km. (about 14 mi.). Such inversions can produce many strange
effects, including the visibility of objects normally well below the
horizon.
In summary, since the atmospheric conditions were conducive to
anomalous radar propagation, and the radar targets displayed AP-like
characteristics, this incident may probably be classified as
consisting of radar false targets, with associated optical sightings
that may have been enhanced by a strong temperature inversion at the
surface.
19-B. Walesville-Westmorland N. Y., 1-2 July 1954, 1105-1127
LST. Weather: apparently clear. On 1 July 1954 reports came into the
AF Depot at Rome, N. Y. of an UFO having the appearance of a balloon.
The officer in charge said he believed it to be a partially deflated
On 1105 LST 2 July 1954, F-94C aircraft 51-13559 took off on a
routine training mission. GCI requested the aircraft to change
mission to intercept an unknown aircraft at 10,000 ft. The pilot
identified a C-47 aircraft by tail number, and was then requested to
check a second unidentified aircraft that was at low altitude and
apparently letting down to land at Griffith AFB. The AF account
states:
As the pilot started a descent, he noted that the cockpit temperature
increased abruptly. The increase in temperature caused the pilot to
scan the instruments. The fire warning light was on and the pilot
informed the radar observer of this fact. The fire warning light
remained on after the throttle was placed in "idle" so the engine was
shut down and both crew members ejected successfully.
The aircraft crashed at the "Walesville Intersection," and was
destroyed. The aircraft struck a house and an automobile, fatally
injuring four persons.
The above account is from the official USAF accident report ("Summary
of Circumstances"). There is no Blue Book file because no UFO was
involved.
Conclusion:
93-B. Wright-Patterson AFB, Ohio, August 1952, 1050-1113 LST.
Weather: scattered clouds at 25,000 ft. This case, occurring almost
over Project Blue Book's home base, is a very good example of
confusion or contradictory evidence tending to obscure the true
nature of a UFO incident.
At 1051 LST an unidentified radar track appeared 20 mi. NNW of Wright
Patterson AFB on the 664th AC&W Squadron's GCI radar at
In this incident it is apparent that
All of the evidence points to a weather balloon except for the
400-450 knot speed, and the 240° flight path, which is against
the prevailing upper winds. Known aircraft were ruled out because of
the altitude. A U-2 would "fit," but the first one was not flown
until 1955, and the visual appearance was all wrong. The radar
returns eliminated astronomical objects, mirage was ruled out because
of the high angles, and the sighting occurred "above the weather."
The conclusion was: unknown.
However, buried deep in the report was the radar operator's note that
"At the time it was dropped (1113 LST) object was five miles
northwest of Springfield, Ohio." This allows the UFO's course to be
plotted on a map; Figs 18 and 19, shows such a map plot. It is
readily apparent from this that the UFO's true heading was about
111° at an average speed of only 44 knots. Apparently no one
thought to make this simple check. Since the highest reported winds
from the radiosonde launched at Dayton at 1000 LST were 260°/31
knots
Conclusion: almost certainly a weather balloon. Note that the winds
reported for the Wright-Patterson AFB 1000 LST show winds blowing
first from the east, then from the SSE, ultimately from the west at
higher altitudes. These winds were blowing in such a manner that it
is conceivable that Wright-Patterson's own radiosonde balloon may
have been the UFO in this incident.
76-B. Near Charleston, W. Va., 4 May 1966, 0340 LST. Weather:
Severe thunderstorms in area. Pilot of a Braniff Airlines Boeing 707
flying at 33,000 ft. observed on his left side what appeared to be a
fast-flying aircraft with landing lights. Braniff's airborne radar
recorded this unknown. Pilot requested the radar operator at
Charleston sector of Indianapolis ARTC to look for traffic at his
8:30 or 9:00 position, and the radar picked up a track in this
position. Return made a sweeping turn and disappeared off scope to
the southwest.
An American Airlines pilot flying 20 mi. behind the Braniff plane saw
the object. It appeared to him to be a normal aircraft with landing
lights. This pilot stated he had often seen such aircraft with lights
during AF refueling missions.
Estimated speed of the unknown was 750-800 mph. No unusual maneuvers
were performed or any that were beyond known military aircraft
capabilities at the time. AF explanation is that the unknown was an
aircraft with landing lights on. This is consistent with the reported
facts.
Case 2. Lakenheath, England, 13-14 August 1956, 2230-0330 LST.
Weather: generally clear until 0300 LST on the 14th. (For details see
Section IV.)
The probability that anomalous propagation of radar signals may have
been involved in this case seems to be small. One or two details
Visual mirage at Bentwaters seems to be out of the question because
of the combined ground and airborne observations; the C47 pilot
apparently saw the UFO below him. The visual objects do not seem to
have been meteors; statements by the observers that meteors were
numerous imply that they were able to differentiate the UFO from the
meteors.
In summary, this is the most puzzling and unusual case in the
radar-visual files. The apparently rational, intelligent behavior of
the UFO suggests a mechanical device of unknown origin as the most
probable explanation of this sighting. However, in view of the
inevitable fallibility of witnesses, more conventional explanations
of this report cannot be entirely ruled out.
This is a good example of moving radar targets that cannot be seen
visually, where there is a "forbidden cone" over the radar site. Some
of the returns were even seen to approach within 5-15 mi. of the
radar and disappear, apparently subsequently reappearing on the other
side of the radar scope at about the same range that they
disappeared. This sort of behavior is symptomatic of AP-echoes.
The meteorological data tend to confirm this interpretation. The
refractivity profile shown in Fig. 21 displays three peculiarities: a
strong subrefractive layer at the surface, a strong elevated duct at
325-520 m. (about 1100-1700 ft.) and a super-refractive layer at
1070-1360 m. (about 3,500-4,500 ft.). A ray-tracing is shown for this
profile in Fig. 20. The ray shows noticeable changes in curvature as
it passes through the different layers, an indication that strong
partial reflections would be expected. With this profile, moving
AP-echoes, produced in the manner described by Borden and Vickers
(1953), could be expected to appear at apparent heights of between
2,000-3,000 ft. and 7,000-9,000 ft. No height information was
supplied with this report, so the calculation above cannot be
verified.
In summary, it appears that this is a case of observations of moving
AP-echoes produced by unusually well stratified atmospheric
conditions.
156-B. Gulf of Mexico, Coast Guard Cutter "Sebago," 25"47'N
89° 24'W, 5 November 1957, 0510-1537 LST. Weather : not given,
but apparently some clouds in area. The most applicable radio
refractivity
The visual object was described as "like a brilliant planet;" it was
undoubtedly a meteor, and in any event obviously was unrelated to
radar target number three, the only radar target visible at the same
time.
The radar targets were, with the possible exception of the first one,
erratic and unpredictable in their movements. The second and third
radar blips appeared suddenly, well within the normal pick-up range
of the ship's radar. These two blips were probably caused by
anomalous propagation. The two Key West profiles, although taken at
some distance from the ship's position, are indicative of rather
unusual atmospheric conditions in the area. Indeed, the 1800 LST
profile is probably one of the most unusual radio refractive index
profiles that has ever been observed. The atmospheric structure was
apparently one of alternating very wet and very dry layers. Patterns
of this sort are often very stable in these subtropical latitudes,
The first radar target behaved generally like an aircraft, and the AF
investigators were of the opinion that it was an aircraft, probably
from Eglin AFB to the north.
In summary, the weight of evidence points toward anomalous
propagation as the cause of the radar echoes, the first possibly
being an aircraft. The visual object was apparently a meteor.
Coincidentally, the ship, SS Hampton Roads, at 27° 50'N 91°
12'W sighted a round, glowing object high in the sky that faded as
darkness approached at 1740-1750 LST. This object appeared to move
with the upper winds. AF investigators concluded that it was in all
probability a weather balloon.
101-B. Canal Zone, 25 November 1952, 1806-2349 LST. Weather:
generally clear, a few scattered clouds, ceiling and visibility
unlimited, visibility at 2,000 ft. was 50 mi. Radio refractivity
profiles for Balboa, 1000 and 2200 LST 25 November 1952, are shown in
Figs. 24 and 25. Two unidentified objects were tracked by gun-laying
radar during the period 1806-2349 LST. These objects, never present
simultaneously, could have represented two tracks of the same object.
The radar returns were described as "firm and consistent," and the
objects were said to maneuver in a "conventional manner" at an
average speed of 275 knots. Apparently the track speeds were as high
as 720-960 mph. at times. Two B-26s, a B-17, and a PBM were scrambled
but no radar or visual contact could be made with the unknowns. The
UFOs were not spotted from the ground, with the exception of a single
report that an officer saw, low in the sky, an "elongated yellow
glow" giving a soft light like a candle. It moved quickly,
disappearing in the
With visibility of 50 mi. it seems strange that the scrambled
aircraft could not sight either of the UFOs. The Air Force report
comments:
It is believed that due to radar units being slightly off calibration
and due to delay in communication, interceptors did chase their own
tail or were sent to intercept themselves.
It is also believed that the majority of the radar plots were
legitimate unidentified objects.
The preparing officer knows of no object which flies at 275 knots,
that could remain in the Canal Zone area for nearly six hours,
maneuver from 1000 through 28,000 feet altitude, make no sound, and
evade interception.
In fact, it is difficult to imagine any material object that could
accomplish all these feats. The strange radar tracks were probably
the product of anomalous propagation conditions, an hypothesis that
would account for the facts above. The atmospheric conditions were
certainly favorable for AP, as can be seen from the A-profiles in
Figs 24 and 25. However, there are two considerations that argue
against this hypothesis.
Despite these two contradictions to the AP hypothesis, the lack of
any visual corroboration of the two UFOs makes any other
Case 21. Colorado Springs, Colo., 13 May 1967, 1540 LST (1640
MDT). Weather: overcast, cold, scattered showers and snow showers
(graupel) in area, winds northerly about 30 mph., gusts to 40 mph.,
visibility air -- more than 15 mi. (Colorado Springs airport is not
horizon-limited; visibilities of 100 mi. are routinely reported on
clear days). This is a radar-only case, and is of particular interest
because the UFO could not be seen, when there was every indication
that it should have been seen.(See Section IV).
From the time the UFO was first picked up on radar to the time the
Braniff flight touched down on runway 35, the UFO track behaved like
a ghost echo, perhaps a ground return being reflected from the
aircraft. This is indicated by the fact that the UFO blip appeared at
about twice the range of the Braniff blip, and on the same azimuth,
although the elevation angle appears to have been different. When
Braniff touched down, however, the situation changed radically. The
UFO blip pulled to the right (east) and passed over the airport at an
indicated height of about 200 ft. As pointed out by the FAA, this is
precisely the correct procedure for an overtaking aircraft, or one
which is practicing an ILS approach but does not actually intend to
touch down. Although the UFO track passed within 1.5 mi. of the
control tower, and the personnel there were alerted to the situation,
the UFO was not visible, even through binoculars. A continental
Airlines flight, which was monitored 3-4 mi. behind the UFO at first
contact, and was flying in the same direction, never saw it either.
Both the PAR and ASR radar transmitting antennas are located to the
east of runway 35, and they are about 1,000 ft. apart on a SW-NE
line. A ghost echo seems to be ruled out by at least the following
considerations:
The radar flight characteristics of the UFO in this case were all
compatible with the hypothesis that the unknown was a century-series
jet (F100, F104, etc.), yet nothing was ever seen or heard.
This must remain as one of the most puzzling radar cases on record,
and no conclusion is possible at this time. It seems inconceivable
that an anomalous propagation echo would behave in the manner
described, particularly with respect to the reported altitude
changes, even if AP had been likely at the time. In view of the
meteorological situation, it would seem that AP was rather unlikely.
Besides, what is the probability that an AP return would appear only
once, and at that time appear to execute a perfect practice ILS
approach?
Case 35. Vandenberg AFB, Lompoc, Calif., 6-7 October 1967,
1900-0130 LST. Weather: clear, good visibility, strong temperature
inversions near the surface caused by advection of very warm
(80°-90°F), dry air over the cool ocean surface (water
temperature 58°-59°F). This sighting begins with an apparent
mirage (of a ship probably 60 mi. beyond the normal horizon) and
continues with a very large number of unknown targets that were found
on tracking radars which were being used in a search mode (they
normally are not used in this way). The project case file contains a
good analysis of the probable nature of the radar targets, some of
which were apparently birds and some apparently ships tracked at 80
mi. ranges as well as other AP-like returns that
The meteorological conditions were quite interesting. The warm, dry
air was apparently quite close to the water surface, at least in
places. Data from Vandenberg and San Nicholas island indicate that in
places the inversion was no thicker than about 90 m. (10 mb pressure
difference). The contrast that may have existed can be calculated
from these data:
The sighting reported for 12 October 1967, 0025 LST, seems to be a
classic example of the description of a scintillating, wandering star
image seen through a strong inversion layer. Note particularly the
estimated ratio of vertical and horizontal movements. Two very bright
stars would have been close to the horizon at this time: Altair,
magnitude 0.9, would have been at 277° azimuth and about 4°
elevation angle; Vega, magnitude 0.1, would have been at about
313° azimuth and about 12° elevation angle. Of the two,
Altair seems the more likely target because of the smaller elevation
angle; the observers gave no estimate of either azimuth or elevation
angle.
A summary of the results of this investigation is given in Table 1.
The reader should note that the assignment of cases into the probable
AP cause category could have been made on the basis of the
observational testimony alone. That is to say, there was no case
where the meteorological data available tended to negate the
anomalous propagation hypothesis, thereby causing that case to be
assigned to some other category. Therefore, a review of the
meteorological data available for the 19 probable-AP cases is in
order.
In overall summary of these results, as they pertain to anomalous
propagation of radio or optical waves, it seems that where the
observational data pointed to anomalous propagation as the probable
cause of an UFO incident, the meteorological data are overwhelmingly
in favor of the plausibility of the AP hypothesis. That this result
could have been only coincidental has been shown to be only remotely
probable.
The following conclusions can be stated as a result of the
investigation reported in this chapter:
height-range, these values often turn out to be equivalent to
elevation angles of only a degree or two. There seems to be a sort of
"quantum effect" at work here, where an object must be either "on the
horizon" (i.e., at 0° or at an elevation of greater than
10°.
A number of recommendations for future UFO investigative procedures
are indicated by the results of this chapter:
data for a sighting months or years after the fact. Copies of
original radiosonde recordings should be obtained for the closest
sites, since these may be analyzed in more detail than that routinely
practiced by weather bureaus for synoptic purposes. It should be
emphasized that, for example, a nighttime profile is usually more
germane to a nighttime sighting than is a daytime profile. For
example, if an UFO incident occurs at 2100 or 2200 LST, an 0600 LST
(next day) raob will generally be more pertinent to the propagation
conditions involved than will an 1800 LST raob. The converse is also
true.
Bean, B. R., & E. J. Dutton. Radio Meteorology, National
Bureau of Standards Monograph No. 92, U.S.G.P.0., (1966).
Borden, R. C., and T. K. Vickers. "A Preliminary Study of
Unidentified Targets Observed on Air Traffic Control Radars," CAA
Technical Development Report No. 180, (1953).
Minnaert, M. The Nature of Light and Colour in the Open Air,
New York City, N. Y.: Dover, 1954.
Figure 3: Sault Saint Marie
Click on thumbnail to see full-size image.
Class I-C: Primarily visual, blurry light or glow.
Figure 4: Bismark ND
Click on thumbnail to see full-size image.
Figure 5: Rapid City 1
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Figure 6: Rapid City 2
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Figure 7: Ft Worth 1
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Figure 8: Ft Worth 2
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Class 1-D: Primarily visual, miscellaneous appearance: balloon-like,
aircraft-like, etc.
Figure 9a: Spokane 1
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Figure 9b: Spokane 2
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Figure 10: Synoptic Map 1
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Figure 11: Synoptic Map 2
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Class II: UFO incidents that are primarily radar contacts, with or
without secondary visual observations.
Class II-A: Primarily radar, with radar returns of an AP-like
nature: fuzzy, vague, or erratic returns, multiple returns, sporadic
returns, etc.
Figure 12: Burwood LA
Click on thumbnail to see full-size image.
Washington, D.C. (see Appendix L) 19-20 and 26-27 July 1952.
Figure 13: Silver Hill MD 1
Click on thumbnail to see full-size image.
Figure 14: Silver Hill MD 2
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Figure 15: Silver Hill MD 3
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At about 0200 EST Washington Center advised that their radar had a
target five miles east of Andrews Field. Andrews tower reported
seeing a light, which changed color, and said it was moving towards
Andrews. I went outside as no target appeared on Andrews radar and
saw a light as reported by the tower. It was between 10° and
15° above the horizon and seemed to change color, from red to
orange to green to red again. It seemed to float, but at times to dip
suddenly and appear to lose altitude. It did not have the appearance
of any star I have ever observed before. At the time of observation
there was a star due east of my position. Its brilliance was
approximately the same as the object and it appeared at about the
same angle, 10° to 157deg; above the horizon. The star did not
change color or have any apparent movement. I estimated the object to
be between three and four miles east of Andrews Field at
approximately 2,000 ft. During the next hour very few reports were
received from Washington Center. [According to Washington Center's
account, however, the 0200 EST object was seen on radar to pass over
Andrews and fade out to the southwest of Andrews -- G. D. T.] At
approximately 0300 EST I again went outside to look at the object. At
this time both the star and the object had increased elevation by
about 10°. [The azimuth would have also increased about 10°,
so that the observed change was apparently equal to the sidereal
rate, 15° of right ascension per hour -- G. D. T.] The object
had ceased to have any apparent movement, but still appeared to be
changing color. On the basis of the second observation, I believe the
unidentified object was a star.
Wichita. Kans. area, 2 August 1965, "early morning hours" up to
"shortly after 0600" LST.
Figure 16: Topeka
Click on thumbnail to see full-size image.
Figure 17: Oklahoma City
Click on thumbnail to see full-size image.
Class II-B. Primarily radar, returns mostly single, sharp,
aircraft-like blips, behaving in a continuous manner (i.e., no sudden
jumps, etc.).
Figure 18: Bellefontaine 1
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Figure 19: Bellefontaine 2
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Figure 20: Sault Saint Marie M-Profile
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Figure 21: Sault Saint Marie
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Figure 22: Key West 1
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Figure 23: Key West 2
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Figure 23a: Key West M-Profile
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Figure 24: Canal Zone 1
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Figure 25: Canal Zone 2
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At or Near Sea Surface:
At 90 Meters or Less:
Pressure:
1004 mb
994 mb
Temperature: °F:
58°F
90°F
Temperature: °C:
14°C
32°C
Temperature: °K:
287°K
305°K
Optical N (5570A)
275 (ppm)
256 (ppm)
4. Summary of Results
Table 1
Frequency of Occurrence of Most Probable UFO Causes
Most Likely or Most Plausible Explanation
Class
Anomalous Propagation
Man-Made Device
Unknown
No UFO
Class Total
I-A
6
1
2
0
9
I-B
2
1
0
0
3
I-C
1
0
1
0
2
I-D
0
4
2
0
6
All Class I
9
6
5
0
19
II-A
6
0
0
0
6
II-B
4
2
2
1
9
All Class II
10
2
2
1
15
All Classes
19
8
7
1
35
5. Conclusions and Recommendations for Further Work
References