The ‘Tsar Bomba’ Was a 50-Megaton Monster Nuke (but it was far too big to ever be a practical weapon).
Maj. Andrei Durnovtsev, a Soviet air force pilot and commander of a Tu-95 Bear bomber, holds a dubious honor in the history of the Cold War.
Durnovtsev flew the aircraft that dropped the most powerful nuclear bomb ever. It had an explosive force of 50 megatons, or more than 3,000 times more powerful than the Hiroshima weapon.
Over the years, historians identified many names for the test bomb.
Andrei Sakharov, one of the physicists who helped design it, simply called it “the Big Bomb.” Soviet Premier Nikita Khrushchev called it “Kuzka’s mother,” a reference to an old Russian saying that means you are about to teach someone a harsh, unforgettable lesson.
The Central Intelligence Agency blandly dubbed the test “Joe 111.” But a more popular name born out of Russian pride and a sheer awe sums it all up — the Tsar Bomba, or “the King of Bombs.”
“As far as I can tell the term did not surface until after the end of the Cold War,” Alex Wellerstein, a historian at the Stevens Institute of Technology and blogger, told War Is Boring. “Before that it was just called the 50 megaton or 100 megaton bomb.”
“I think we make a lot more of the Tsar Bomba today than anytime other than the immediate period in which it was tested.”
“Americans like to point to it as an example of how crazy the Cold War was, and how crazy the Russians are and were,” Wellerstein added. “Russians seem to take pride in it.”
On Oct. 30, 1961, Durnovtsev and his crew took off from an airfield on the Kola Peninsula and headed to the Soviet nuclear test area above the Arctic Circle at Mityushikha Bay, located in the Novaya Zemlya archipelago.
The test project’s scientists painted the Bear bomber and its Tu-16 Badger chase plane white to limit heat damage from the bomb’s thermal pulse. That’s at least what the scientists hoped the paint would do.
The bomb also had a parachute to slow its drop, giving both planes time to fly around 30 miles away from ground zero before the nuke detonated. This gave Durnovtsev and his comrades a chance to escape.
When the planes reached their destination at the predetermined altitude of 34,000 feet, he ordered the bomb dropped. The chute opened, and the bomb started its three-minute descent to its detonation altitude two-and-a-half miles above the earth.
Durnovtsev pushed the throttles to the max.
Then the bomb exploded.
The blast broke windows more than 500 miles away. Witnesses saw the flash through heavy cloud cover more than 600 miles from the blast site.
Its mushroom cloud boiled up into the atmosphere until it was 45 miles above ground zero — essentially, the lower boundaries of space. The top of the mushroom cloud spread out until it was 60 miles wide. The nuke’s thermal pulse burned the paint off of both planes.
And that was small compared to the Soviets’ original plan.
The designers originally intended the bomb to have a 100-megaton yield. They used a three-stage Teller-Ulam lithium dry-fuel configuration — similar to the thermonuclear device first demonstrated by the United States during the Castle Bravo shot .
Concerns about fallout prompted Russian scientists to use lead tampers that dialed down the yield to half of the bomb’s capabilities. Interestingly enough, Tsar Bomba was one of the “cleanest” nuclear weapons ever detonated, because the bomb’s design eliminated 97 percent of the possible fallout.
Even its size was monstrous. It was 26 feet long, about seven feet in diameter and weighed more than 60,000 pounds — so large it couldn’t even fit inside of the bomb bay of the modified Bear bomber used to drop it.
The Tsar Bomba was so big, it’s doubtful whether it could ever have been a practical weapon delivered by a Soviet bomber.
Because of the distance from the Soviet Union to America, removal of the fuselage fuel tanks to accommodate the bomb — combined with its sheer weight — meant that a Bear bomber wouldn’t have sufficient fuel for the mission even with aerial refueling.
However, the CIA investigated whether the Soviets planned to place similar warheads on super-powerful intercontinental ballistic missiles that would target American cities.
The reason was accuracy. Or rather, the lack thereof. Because of the NATO alliance’s nuclear advantages, the United States could place bombers and intermediate range ballistic missiles fairly close to Soviet targets in Eastern Europe.
The shorter flight distance for those missiles meant they had a better chance of delivering their nuclear warheads effectively on target.