Hydrogen Bomb: Is it matters a Lot? How much? What is Hydrogen Bomb? 0 2932

Hydrogen Bomb: Is it matters a Lot? How much? What is Hydrogen Bomb? 0 2933

Story highlights

  • North Korea claims to have tested a hydrogen bomb
  • Hydrogen bombs are vastly more powerful than the only atomic bombs ever used

(CNN) North Korea announced Wednesday that it had successfully tested a hydrogen bomb.

If true, it now possesses something much more powerful than the weapons it has tested in the past.

The nuclear age is has entered its eighth decade, and while relatively few nations possess the power, the potential consequences of North Korea upping its nuclear game from a basic atomic bomb to a hydrogen bomb has caught the world’s attention.

A quick lesson in fission versus fusion

If Pyongyang has mastered the technology, it has made a major step forward in its nuclear capabilities.

The plutonium-based atomic weapons it tested up until this point were powerful enough — the United States dropped such weapons on Japan to end World War II — but a hydrogen bomb ups the ante many times over.

Atomic bombs use a process called fission. They split plutonium and/or uranium into smaller atoms in a chain reaction that releases massive amounts of energy.

The A-bombs dropped by American forces on Hiroshima and Nagasaki in 1945 killed more than 200,000 people.

H-bombs use fusion, the same process that powers the sun. In a hydrogen (thermonuclear) bomb, “heavy” isotopes of hydrogen are forced together to release a much bigger punch — hundreds or even thousands of times more powerful than the only nuclear weapons that have been used in warfare.

“What thermonuclear weapons do is increase the potential yield by enormous amounts. The amounts that can be released by thermonuclear weapons are phenomenal,” said Martin Navias, senior fellow at the Centre for Defence Studies at King’s College, London.

The most powerful nuclear weapon ever detonated was the Tzar Bomba, a hydrogen bomb tested by the Soviet Union in 1961, he said. Its blast of 50,000 kilotons, or 50 megatons, dwarfing the force of the Hiroshima and Nagasaki bombs.

With the development of an H-bomb, reclusive North Korea would be that much more of a threat.

A quick lesson in how it works

A hydrogen bomb is a complex bit of machinery. It’s basically two bombs in one.

While it gets its bang from the fusion reaction, it takes a lot of heat to get the process started — to get the atoms to smash together and start a nuclear chain reaction. That’s why they’re called thermonuclear weapons

What better way to do that with than another much smaller nuclear weapon? An atomic bomb works as the trigger to set off the hydrogen bomb. The two explosions occur in virtually the same instant.

The nuclear arsenals of the United States, Russia, United Kingdom, France and China include these types of weapons.

India and Pakistan have nuclear weapons, but none are believed to be thermonuclear.

Lesson in History

Atomic bombs have been only used twice in warfare — both times by the United States and both times on Japan. The devastation led to Japan’s unconditional surrender and brought an end to World War II.

Hydrogen bombs have never been used in war, although there have been times when the world seemed to be on the brink. The Cuban missile crisis of 1962 is the most prominent example.

The major nuclear powers have gradually backed away from that brink over the years. In recent decades the Cold War adversaries have rolled back their nuclear arsenals.

Look At Nuclear Powers

Since dawn of the nuclear age, at least eight nations have conducted a total of more than 2,000 nuclear test explosions.

The United States was first, detonating an atomic bomb in New Mexico on July 16, 1945. In the ensuing years, the U.S. was joined by the Soviet Union, United Kingdom, France, China, India, Pakistan and North Korea. (Israel also is believed to have nuclear weapons, but has never officially said so).

The U.S., UK and USSR agreed to end above-ground testing in 1963. The Soviet Union’s last underground test was in 1990, and Russia, which inherited the arsenal after the USSR’s in 1991, has not conducted any since. Britain (1991), the U.S. (1992), France and China (both 1996) also have ceased testing their weapons.

India and Pakistan conducted nuclear tests in 1998.

North Korea is the only nation to have conducted any nuclear tests this century, in 2006, 2009, 2013 and this year.

How do North Korea’s nuclear capabilities stack up?

It has not been confirmed that North Korea has successfully tested a miniaturized H-bomb.

Navias, for one, says he does not believe North Korea’s claim.

“Their rhetoric tends to run ahead of their actual capabilities,” he told CNN.

Wednesday’s test yielded a blast of a similar magnitude to a previous North Korean test in 2013, he said.

“One would have expected the yield (from an H-bomb) to have been far greater,” he said.

“What they may have done is boosted their fission weapon by introducing various hydrogen isotopes.”

Nevertheless, North Korea’s advances in nuclear weapons technology are real and cause for concern, he said.

While Pyongyang does not have intercontinental ballistic missile technology that would enable it to strike the West Coast of the United States, it has missiles capable of striking South Korea, Japan and U.S. military bases in the region, he said.

North Korea still needs to make “very challenging” advancements in miniaturizing nuclear warheads to be able to fit them onto missiles, and to improve its missile guidance systems, he said. But it is undoubtedly making efforts to advance in these areas.

“There are people out there that know this stuff,” he said.

It also claims to have recently tested a submarine-launched ballistic missile, he said — a technology that, if mastered, “would be a completely different level of threat.”

“I don’t think they’ve reached anywhere with those things, but they’re moving steadily in that direction and the outside world has little leverage,” he said. “The only people who have any influence over them are the Chinese, and that influence is pretty limited.”

“If left unattended, it’s not unreasonable to assume that in the long run, all these things will realize themselves.”

Will Pyongyang seek to wage war if it develops a long-range nuclear strike capability?

Navius said it was unlikely that North Korea seeks to wage war on the United States or other foreign power, despite seeing itself as under threat. More likely, the isolated regime is seeking use nuclear capability to gain greater leverage on the international stage.

However, Navius said, nuclear proliferation carries its own inherent risk, especially in such an unstable part of the world.

“The danger is that sometimes when you have this kind of escalation, escalation has its own dynamic,” he said. “You may enter into a war even when none of the parties want one.”

In the world people want peace and healthy life. Such test make the nation powerful but weakens the humanity. It can be consider equivalent to terrorism which is already affects many part of world.

Hydrogen bombs versus atomic bombs, explained by Brian Resnick on January 6, 2016

Chung Sung-Jun/Getty Images
Chung Sung-Jun/Getty Images

North Korea’s government claims it has successfully conducted a test of a hydrogen bomb. For now experts are very skeptical of that claim. They agree that North Korea likely tested some sort of atomic weapon on Tuesday, but it remains to be seen what type.

This question matters greatly. North Korea already has atomic bombs, similar to the ones used in World War II. But hydrogen bombs can be thousands of times more powerful — they’re the most terrifyingly destructive inventions humans have ever assembled. A short overview of the difference is below.

The difference between an atomic bomb and a hydrogen bomb

Atomic bombs — like the two the United States used against Japan in World War II — rely on a process known as nuclear fission.

Isotopes like uranium-235 and plutonium-239 easily undergo fission — when a neutron hits their nucleus, the nucleus splits, releasing more neutrons and a tremendous amount of energy.

And when you have a large critical mass of uranium-235 or plutonium-239, all that splitting and neutron creation leads to a runaway chain reaction. Each time an atom is split apart, it releases more neutrons and energy, which split apart other atoms and release even more energy:

Source: Wikimedia
Source: Wikimedia

To create an atomic bomb, engineers typically design explosives that can force together pieces of uranium-235 or plutonium-239 into a critical mass. Once that happens, boom.

These bombs are incredibly powerful: The two dropped on Hiroshima and Nagasaki completely leveled those cities, exploding with forces of 15,000 and 20,000 tons of TNT, respectively. The most powerful fission bombs ever built can produce explosions equal to 500,000 tons of TNT.

But they’re not the biggest bombs out there. Hydrogen bombs are thousands of times more powerful than their atomic predecessors. The first hydrogen bomb the United States ever tested in the Marshall Islands in 1952, called Ivy Mike, had the force of 10 million tons of TNT (or 10 megatons).

The most powerful hydrogen bomb ever — a Russian nuke called Tsar Bomba, literally “king of bombs” — had a yield of 50 megatons of TNT. A blast from Tsar Bomba could cause radiation burns as far as 62 miles away. Windows more than 500 miles away shattered during the Tsar Bomba test.

Hydrogen bombs combine both nuclear fission and a different process known as nuclear fusion to produce a far, far more powerful blast.

How a hydrogen bomb works

The first stage of a hydrogen bomb involves a fission explosion, as described above. That explosion, in turn, leads to a second stage — fusion.

The extreme heat and pressure from the initial atomic blast force together deuterium and tritium (two light gases made of hydrogen). When they are forced together, some of the hydrogen atoms fuse to one another, creating helium.

This process of fusion releases even more energy per unit of mass than fission does, and the energy released from the fusion reaction also feeds back into the fission reaction, increasing its output. This all happens nearly instantaneously.

This diagram shows a very simplified design of a hydrogen bomb.

Source: Wikimedia
Source: Wikimedia

Science historian Alex Wellerstein has created an online tool for comparing the impact of the different types of nuclear weapons.

For the sake of a demonstration, let’s drop “Little Boy,” the bomb used in Hiroshima, on Lower Manhattan. This is the resulting blast radius.

Source:  nuclearsecrecy.com
Source: nuclearsecrecy.com

Now let’s look at a hydrogen bomb. This is the blast radius of Ivy Mike — the first (but not the most powerful) hydrogen bomb ever tested:

HydrogenBomb-Effects-If-it-blast-ever
Source: nuclearsecrecy.com

The first is a catastrophe. The second is so horrifying it’s unimaginable.

 

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