In November, the Israelis ambushed one of these mysterious intruders, firing missiles head on from 30,000ft below. It was a useless gesture. Their unidentified target streaked past at nearly three times the speed of sound – so fast the jet was already out of the danger zone by the time the missiles exploded. The Pentagon put two and two together, and came up with a Cold War crisis. They believed this jet was the same one that had been glimpsed from the satellite photos. They were suddenly presented with the prospect of a Soviet fighter that could outrun and out-turn anything in the US Air Force.The Pentagon put two and two together, and came up with a Cold War crisis
The technological leap needed to take an aircraft from Mach 2 to Mach 3 was an enormous challengeIn the 1950s, the Soviets had largely kept pace with the leapfrogging advances in aviation. They had bombers that could fly almost as fast and as high as the American B-52. Their fighter planes – many of which were made by the MiG design team – rivalled their American counterparts, though their radar and other electronics weren’t quite so sophisticated. But the technological leap needed to take an aircraft from Mach 2 to Mach 3 was an enormous challenge. And this is what Soviet designers would have to do, as quickly as possible. Led by MiG’s brilliant Rostislav Belyakov, the design team set to work. To fly so fast, the new fighter would need engines pushing out colossal amounts of thrust. Tumansky, the leading engine designer of the USSR, had already built an engine they believed could do the job, the R-15 turbojet, which had been intended for a high-altitude cruise missile project. The new MiG would need two of them, each capable of pushing out 11 tonnes of thrust each. Flying so fast creates enormous amounts of friction heat as the aircraft pushes against air molecules. When Lockheed built the SR-71 Blackbird, they built it out of titanium, which could withstand the enormous heat. But titanium is expensive and difficult to work with. Instead, MiG went with steel. And lots of it. The MiG-25 was welded together, by hand. It’s only when you stand next to a MiG-25 – and there are several spending their retirement parked on the grass at some of Russia’s military museums – that you can fully appreciate just what a task it was. The MiG-25 is enormous. At 64ft (19.5m) long, it’s only a few feet shorter than a World War Two-era Lancaster bomber. The airframe needed to be this big to accommodate the engines and the enormous amount of fuel needed to power them. “The MiG-25 could carry something like 30,000lbs (13,600kg) of fuel,” says Trimble. That heavy steel airframe was the reason the MiG-25 had such large wings – not to help it dogfight with US fighters, but simply in order to keep it in the air. The MiGs were designed to take off and accelerate to Mach 2.5, guided to approaching targets by large, ground-based radars. When they were within 50 miles (80km), their own on-board radars would be able to take over, and they would fire their missiles – which, in keeping with the MiG’s enormous size, were some 20-feet-long (6m).
In the early 1970s, US defence chiefs knew nothing about the MiG’s capabilities – though they had given it the codename ‘Foxbat’As a counter to the American Blackbird, MiG also built a reconnaissance version, which was unarmed, but carried cameras and other sensors. Without the weight of the missiles and the targeting radar, this version was lighter – and it could fly as fast as Mach 3.2. This was the version spotted by Israel in 1971. But in the early 1970s, defence chiefs in the US knew nothing about the MiG’s capabilities – though they had given it the codename ‘Foxbat’. They knew it only from blurred photos taken from space and from blips on radar screens above the Mediterranean. Unless they could somehow get their hands on one, it seemed that the MiG would remain a mysterious threat. That is, until a disillusioned Soviet fighter pilot hatched his plan. Viktor Belenko had been a model Soviet citizen. He was born just after the end of World War Two, in the foothills of the Caucasus mountains. He entered military service and qualified as a fighter pilot – a role that brought with it certain perks compared to the average Soviet citizen.
To evade both Soviet and Japanese military radar, Belenko had to fly very low – about 100ft above the seaOn 6 September Belenko flew off with fellow pilots on a training mission. None of the MiGs were armed. He had already worked out a rough route, and his MiG had a full tank of fuel. He broke formation, and within a few minutes he was over the waves, heading towards Japan. To evade both Soviet and Japanese military radar, Belenko had to fly very low – about 100ft (30m) above the sea. When he was far enough into Japanese airspace, he took the MiG up to 20,000ft (6,000m) so it could be picked up by Japanese radar. The surprised Japanese tried to hail this unidentified aircraft, but Belenko’s radio was tuned to the wrong frequencies. Japanese fighters were scrambled, but by then, Belenko had dropped below the thick cloud cover again. He disappeared off the Japanese radar screens. All this time, the Soviet pilot had been flying by guesswork, on the memory of maps he’d studied before he’d taken off. Belenko had intended to fly his aircraft to Chitose airbase, but with fuel running low, he had to land at the nearest available airport. That, as it turned out, was Hakdodate.
The Japanese suddenly found themselves with a defecting pilot – and a fighter jet that had so far evaded Western intelligence agenciesJapan only really knew what they were dealing with when the MiG made its surprise landing. The Japanese suddenly found themselves with a defecting pilot – and a fighter jet that had so far evaded Western intelligence agencies. Hakodate’s airport suddenly became a hive of intelligence activity. The CIA was scarcely able to believe its luck.
The MiG tracked at Mach 3.2 by Israel in 1971 essentially destroyed its engines in the processThe MiG’s turbojets generated thrust by sucking in air to help burn the fuel. Above 2,000mph (3,200km/h), however, things started to go wrong. The sheer force of the air could overwhelm the fuel pumps, dumping more and more fuel into the engine. And at the same time, the force exerted by the compressors would be so huge it would start sucking up parts of the engine. The MiG would start eating itself. MiG-25 pilots were warned never to exceed Mach 2.8; the MiG tracked at Mach 3.2 by Israel in 1971 essentially destroyed its engines in the process, and was lucky to return to base.
It’s like Usain Bolt, except it’s a Usain Bolt that’s actually running slower than the marathon runner – Roger Connor, Smithsonian Air & Space MuseumIt soon became clear that the much-feared MiG was unable to intercept the US military’s SR-71, one of the planes it was built to deal with. “The one big difference between the MiG and the SR-71, is that the SR-71 is not only fast, but it’s running a marathon,” says Connor. “The MiG is doing a sprint. It’s like Usain Bolt, except it’s a Usain Bolt that’s actually running slower than the marathon runner.” These limitations didn’t stop MiG building more than 1,200 MiG-25s. The ‘Foxbat’ became a prestige plane for Soviet-backed air forces, who saw the propaganda value in fielding the second-fastest plane on Earth. Algeria and Syria are still thought to be flying them today. India used the reconnaissance model with great success for 25 years; they were only retired in 2006 because of a lack of spare parts. The fear of the MiG-25 was its most impressive effect, says Trimble. “Until 1976, [the US] didn’t know that it wasn’t capable of intercepting the SR-71, and that kept them out of Soviet airspace the entire period. The Soviets had been very sensitive to the idea of these overflights.”