Chaff (countermeasure)

Modern US Navy RR-144 (top) and RR-129 (bottom) chaff countermeasures and containers. Note how the strips of the RR-129 chaff (bottom) are of different widths, while those of the RR-144 (top) are all the same width. The RR-144 is designed to prevent interference with civil ATC radar systems.

Chaff, originally called Window[1] by the British, and Düppel by the Second World War era German Luftwaffe (from the Berlin suburb where it was first developed), is a radar countermeasure in which aircraft or other targets spread a cloud of small, thin pieces of aluminium, metallized glass fibre or plastic, which either appears as a cluster of primary targets on radar screens or swamps the screen with multiple returns.

Modern armed forces use chaff (in naval applications, for instance, using short-range SRBOC rockets) to distract radar-guided missiles from their targets. Most military aircraft and warships have chaff dispensing systems for self-defense. An intercontinental ballistic missile may release in its midcourse phase several independent warheads as well as penetration aids such as decoy balloons and chaff.

Second World War

The idea of using chaff developed independently in the United Kingdom, Germany and the United States.

In 1937, British researcher Gerald Touch (who was working with Robert Watson-Watt on radar) suggested that lengths of wire suspended from balloons or parachutes might overwhelm a radar system with false echoes[2] and R. V. Jones had suggested that pieces of metal foil falling through the air might do the same.[3]

In early 1942, a Telecommunications Research Establishment (TRE) researcher named Joan Curran investigated the idea and came up with a scheme for dumping packets of aluminium strips from aircraft to generate a cloud of false echoes.[4] An early idea was to use sheets the size of a notebook page; these would be printed so they would also serve as propaganda leaflets.[5] However, it was found the most effective version used strips of black paper backed with aluminium foil, exactly 27 by 2 centimetres (10.63 in × 0.79 in) and packed into bundles each weighing 1 pound (0.45 kg). The Head of the TRE, A. P. Rowe, code-named the device "Window".

Meanwhile, in Germany, similar research had led to the development of Düppel. The German code name was that of the estate on which the first German tests with chaff had been made, circa 1942.[6] Once the idea had been passed to the US, Fred Whipple developed a system (according to Harvard Gazette Archives) for dispensing strips for the USAAF, but it is not known if this was ever used.

A Lancaster dropping chaff (the crescent-shaped white cloud on the left of the picture) over Essen during a thousand-bomber raid.

The systems were all essentially identical in concept: small aluminium strips (or wires) cut to one-half of the target radar's wavelength. When hit by the radar, such lengths of metal resonate and re-radiate the signal.[5] Opposing defences would find it almost impossible to distinguish the aircraft from the echoes caused by the chaff. Other radar-confusing techniques included Mandrel, Piperack, and Jostle.[7]

However, unaware of the opposing air force's knowledge of the chaff concept, planners felt that using it was even more dangerous than not, since, as soon as it was used, the enemy could easily duplicate it and use it against them. In particular, the British government's leading scientific adviser, Professor Lindemann, balefully pointed out that if the RAF used it against the Germans, the Luftwaffe would quickly copy it and could launch a new Blitz. This caused concern in RAF Fighter Command and Anti-Aircraft Command, who managed to suppress the use of Window until July 1943.[8] At this time, it was felt the new generation of centimetric radars available to Fighter Command would deal with any Luftwaffe response to RAF Bomber Command use.

Examination of the Würzburg radar equipment brought back to the UK during Operation Biting and subsequent reconnaissance revealed to the British that all German radars were operating in no more than three major frequency ranges, and thus were prone to jamming. "Bomber" Harris, Commander-in-Chief (C-in-C) of RAF Bomber Command, finally got approval to use Window as part of Operation Gomorrah, the fire raids against Hamburg.

The first aircrew trained to use Window were 76 squadron. Twenty-four crews were briefed on how to drop the bundles of aluminised-paper strips (treated-paper was used to minimise the weight and maximise the time that the strips would remain in the air, prolonging the effect), one every minute through the flare chute, using a stopwatch to time them. The results were spectacular. The radar guided master searchlights wandered aimlessly across the sky. The anti-aircraft guns fired randomly or not at all and the night fighters, their radar displays swamped with false echoes, utterly failed to find the bomber stream. A vast area of Hamburg was devastated, resulting in more than 40,000 civilian casualties, with the loss of only 12 bombers. Squadrons quickly had special chutes fitted to their bombers to make the deployment even easier. Seeing this as a development that made it safer to go on operations, many crews got in as many trips as they could before the Germans found a countermeasure.

The effect of chaff on the display of a Giant Würzburg radar. The effect of jamming appears in the left "jagged" half of the circular ring, contrasting with the normal "smooth" (unjammed) display on the right half of the circle, with a real target at the 3 o'clock position – on the jammed left side the real target "blip" would have been indistinguishable from the jamming.

Although the metal strips puzzled the German civilians at first, German scientists knew exactly what they were because they had developed Düppel themselves but had refrained from using it for exactly the same reasons as Lindemann had pointed out to the British. Thus for over a year the curious situation arose where both sides of the conflict knew how to use chaff to jam the other side's radar, but refrained from doing so fearing that if they did so the other side would 'learn the trick' and use it against themselves.

The use of Window rendered both the ground-controlled 'Himmelbett' (German for "canopy bed") fighters of the Kammhuber Line unable to track their targets in the night sky, and the early UHF-band versions of the airborne intercept Lichtenstein radar (following the capture of a Ju 88R-1 night fighter by the British in May 1943) useless, likewise blinding radar-guided guns and spotlights dependent on the ground-based defensive radar systems. In response to this, a new tactic, called Wilde Sau, or 'Wild Sow', was developed by Oberst Hajo Herrmann to cope with the lack of accurate ground guidance, and led to the creation of three new fighter wings dedicated to these tactics, numbered JG 300, JG 301 and JG 302. Ground operators would radio-direct single seat fighters and night fighters to areas where the concentrations of chaff were greatest (which would indicate the source of the chaff), and allow the fighters to visually acquire their targets, often against the fires and searchlights below. A few of the single seat fighters used by these new wings had special installations of the FuG 350 Naxos radar detection gear to spot British bombers at night, homing in on the British bombers' H2S bomb-aiming radar emissions.

A lesser known fact is that the Luftwaffe used this technology just six weeks after the above-mentioned Hamburg raid. The German strips were cut into 80 centimetre by 1.9 centimetre lengths and first dropped during a raid on 7–8 October 1943.[9] In a series of raids in 1943, and the 'mini-blitz' of Operation Steinbock between February and May 1944, Düppel allowed German bombers to once again attempt to operate over London. Although theoretically effective, the small number of bombers, notably in relation to the RAF's now-large night fighter force, doomed the effort from the start. The British fighters were able to go aloft in large numbers and often found the German bombers in spite of their Düppel.

Letter from Secretary of the Navy, James Forrestal to Merwyn Bly

Chaff in the United States was co-invented by astronomer Fred Whipple and Navy engineer Merwyn Bly. Whipple proposed the idea to the Air Force who he was working with at the time.[10] However, initial tests were unsuccessful as the foil strips stuck together and fell as clumps for little or no effect. Bly solved this by designing a cartridge that forced the strips to rub against it as they were expelled, gaining an electrostatic charge. Since the strips all had a similar charge they repelled each other, enabling the full countermeasure effect. After the war, Bly received the Navy Distinguished Civilian Service Award for his work.

Falklands War

British warships in the Falklands War (1982) made heavy use of chaff.

During the war, British Sea Harrier aircraft lacked their conventional chaff-dispensing mechanism.[11] Therefore, Royal Navy engineers designed an impromptu delivery system of welding rods, split pins and string, which allowed six packets of chaff to be stored in the airbrake well and be deployed in flight. It was often referred to as the "Heath Robinson chaff modification", due to its complexity.[12]

See also

Notes

  1. Churchill, Winston Spencer (1951). The Second World War: Closing the Ring. Houghton Mifflin Company, Boston. p. 643.
  2. Jones. p.39
  3. Jones. p.290
  4. Goebel. section 8.3 The British Begin Countermeasures
  5. 1 2 Jones, p. 291
  6. Jones, p. 299
  7. Mandrel was an airborne jammer targeted at the German Freya radars. Jones. p.295
  8. Jones, pp. 291–299
  9. The Blitz-Then and Now (Volume 3) page 309.
  10. Gewertz, Ken (18 October 2001). "Fred Whipple: Stargazer". Harvard Gazette: The Big Picture. President and Fellows of Harvard College. Retrieved 4 February 2014.
  11. Sharkey Ward (2000). Sea Harrier Over the Falklands (Cassell Military Paperbacks). Sterling*+ Publishing Company. p. 245. ISBN 0-304-35542-9.
  12. Morgan, David L. (2006). Hostile Skies: My Falklands Air War. London: Orion Publishing. pp. 59, 73 and photo section. ISBN 0-297-84645-0.

References

External links

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