When was the atomic bomb invented? The history of the creation of the atomic bomb. Playing ahead

The first atomic bomb in the USSR was an epoch-making event that completely changed the geopolitical situation on the planet.

All the key players on the world stage in the 40s of the 20th century tried to get their hands on a nuclear bomb in order to establish absolute power, make their influence on other countries decisive and, if necessary, easily destroy enemy cities and infect millions of people with the deadly effects of high-energy weapons. radiation.

The atomic project in the country of the Soviets got its start in 1943, which became the need to quickly catch up with the leading countries in this matter, Germany and the USA, and prevent them from gaining decisive superiority. The exact launch date is February 11, 1943.

At that time, the scientific developers could not yet fully understand what a terrible weapon they were offering to politicians, who were often very odious individuals. Nuclear weapons can instantly destroy millions of people around the world and cause irreparable harm to nature in all its manifestations.

Today, the political situation is still tense, which is commonplace for eternally warring people, and nuclear weapons continue to play an important role in establishing parity - equality of forces, thanks to which none of the parties to a new global conflict dares to attack the enemy.

Creation of the atomic bomb in the USSR

Molotov became the main politician who was supposed to oversee the nuclear program.

Vyacheslav Mikhailovich Molotov (1890 - 1986) - Russian revolutionary, Soviet politician and statesman. Chairman of the Council of People's Commissars of the USSR in 1930-1941, People's Commissar, Minister of Foreign Affairs of the USSR in 1939-1949, 1953-1956.

He, in turn, decided that such a serious work of scientists should be headed by Kurchatov, an experienced physicist, under whose leadership Russian science made many outstanding breakthroughs.

This inventor and leader became famous for many things, in particular for the fact that under him the first nuclear power plant was launched, that is, the peaceful use of atomic energy became possible.

The first bomb was called RDS-1. This abbreviation meant the following phrase - "special jet engine". This cipher was developed in order to keep developments as secret as possible.

The shell explosions were carried out on the territory of Kazakhstan at a specially constructed test site.

There are many rumors that the Russian side could not catch up with the Americans, since it did not know some of the nuances of the development. The invention was allegedly accelerated by anonymous American scientists leaking secrets to the Soviets, which greatly accelerated the process.

But critics say that even if this is so, it is worth understanding that the domestic bomb would not have happened without the overall high level of development of science and industry, as well as the presence of highly qualified personnel who were able to quickly recognize and apply the clues, even if they were there.

Julius Rosenberg and his wife Ethel are American communists accused of spying for the Soviet Union (primarily passing on American nuclear secrets to the USSR) and executed for this in 1953.

As for who passed on the secret to speed up the matter, then blueprints for the bomb were sent to the USSR to a scientist named Julius Rosenberg, although he was supervised by other personalities, for example, Klaus Fuchs.

For his act, Rosenberg was executed in the early 50s in the United States. Other names also appear in the case.

The outstanding Russian nuclear physicist Igor Vasilyevich Kurchatov is rightfully considered the “father” of the Soviet nuclear project. The creator of deadly weapons took up this project in 1942 and oversaw it until his death.

Igor Vasilyevich Kurchatov (1903 - 1960) - Soviet physicist, “father” of the Soviet atomic bomb. Three times Hero of Socialist Labor (1949, 1951, 1954). Academician of the USSR Academy of Sciences (1943) and the Academy of Sciences of Uzbekistan. SSR (1959), Doctor of Physical and Mathematical Sciences (1933), Professor (1935). Founder and first director of the Institute of Atomic Energy (1943-1960).

The development of weapons did not prevent the scientist from acting in other areas; for example, it was he who made a decisive contribution to the launch of the first nuclear reactors in the country and throughout the world for energy production.

Kurchatov was born in 1903 in the family of a landowner, he studied exceptionally well, and already at the age of 21 he completed his first scientific work. It was he who became one of the leaders in the field of studying nuclear physics and all its many secrets.

Kurchatov is the owner of many honorary awards and top-level titles. The entire Soviet Union knew and admired this man, who died at only 57 years old.

The work proceeded at an accelerated pace, therefore, after the start of the project in 1942, it was already On August 29, 1949, the first successful test was carried out.

The bomb was tested by a scientist and a military team under Khariton’s organization. Responsibility for any mistakes was the strictest, so all participants in the work treated their work with the utmost care.

The nuclear test site where this historical event happened is called the Semipalatinsk test site, and it is located in the vast territory of what is now Kazakhstan, and at that time the Kazakh SSR. Later, other places for such tests appeared.

The power of RDS-1 was 22 kilotons, its explosion caused a huge amount of destruction. Their chronology is still of great interest today.

Here are some nuances of explosion preparation:

To test the force of impact, civilian houses made of wood and concrete panels were built at the test site. About 1,500 animals were also placed there, on which it was planned to test the effects of the bomb.
The experiment also used sectors with different types of weapons, fortified objects and protected structures.
The bomb itself was mounted on a metal tower almost 40 meters high.

When the explosion was carried out, the metal tower where the bomb stood simply disappeared, and in its place a 1.5-meter hole appeared in the ground. Of the 1,500 animals, about 400 died.

Many concrete structures, houses, bridges, civilian and military vehicles were hopelessly damaged. Supervision of the work was carried out at the highest level, therefore no unplanned troubles arose.

Consequences of the creation of the atomic bomb for the USSR

When the coveted form of weapons finally appeared in the hands of Soviet leaders, it caused a lot of different reactions. After the first successful test of the RDS-1, the Americans learned about this with the help of their reconnaissance aircraft.

US President Truman issued a statement about this event about a month after the tests.

Officially, the USSR recognized the presence of the bomb only in 1950.

What are the consequences of all this? History has ambiguity regarding the events of those times. Of course, the creation of nuclear weapons had its own important reasons, which were perhaps even a matter of the country’s survival. The developer of such a project also did not understand the full extent of the consequences, and this applies not only to the USSR, but also to the Germans and Americans.

In general, to put it briefly, then the consequences are as follows:

the establishment of nuclear parity, when none of the parties to the global confrontation would risk starting an open war;
significant technological breakthrough of the Soviet Union;
the emergence of our country as a world leader, the opportunity to speak from a position of strength.

The bomb also brought an increase in tension in relations between the USSR and the USA, and today this is manifested no less. The consequences of the production of nuclear weapons meant that the world could slide into disaster at any moment and suddenly find itself in a state of nuclear winter, because you never know what will come to mind for the next politician who has seized power.

In general, the supervision and creation of the RDS-1 nuclear bomb was a complex event that literally opened a new era of world history, and the year the USSR created this weapon became a landmark one.

The American Robert Oppenheimer and the Soviet scientist Igor Kurchatov are usually called the fathers of the atomic bomb. But considering that work on the deadly was carried out in parallel in four countries and, in addition to scientists from these countries, people from Italy, Hungary, Denmark, etc., took part in it, the resulting bomb can rightly be called the brainchild of different peoples.

The Germans were the first to get down to business. In December 1938, their physicists Otto Hahn and Fritz Strassmann were the first in the world to artificially split the nucleus of a uranium atom. In April 1939, the German military leadership received a letter from Hamburg University professors P. Harteck and W. Groth, which indicated the fundamental possibility of creating a new type of highly effective explosive. Scientists wrote: “The country that is the first to practically master the achievements of nuclear physics will acquire absolute superiority over others.” And now the Imperial Ministry of Science and Education is holding a meeting on the topic “On a self-propagating (that is, chain) nuclear reaction.” Among the participants is Professor E. Schumann, head of the research department of the Armament Directorate of the Third Reich. Without delay, we moved from words to deeds. Already in June 1939, construction of Germany's first reactor plant began at the Kummersdorf test site near Berlin. A law was passed banning the export of uranium outside Germany, and a large amount of uranium ore was urgently purchased from the Belgian Congo.

Germany starts and... loses

On September 26, 1939, when war was already raging in Europe, it was decided to classify all work related to the uranium problem and the implementation of the program, called the “Uranium Project”. The scientists involved in the project were initially very optimistic: they believed it was possible to create nuclear weapons within a year. They were wrong, as life has shown.

22 organizations were involved in the project, including such well-known scientific centers as the Kaiser Wilhelm Society Physics Institute, the Institute of Physical Chemistry of the University of Hamburg, the Physics Institute of the Higher Technical School in Berlin, the Physico-Chemical Institute of the University of Leipzig and many others. The project was personally supervised by the Reich Minister of Armaments Albert Speer. The IG Farbenindustry concern was entrusted with the production of uranium hexafluoride, from which it is possible to extract the uranium-235 isotope, capable of maintaining a chain reaction. The same company was also entrusted with the construction of an isotope separation plant. Such venerable scientists as Heisenberg, Weizsäcker, von Ardenne, Riehl, Pose, Nobel laureate Gustav Hertz and others directly participated in the work.

Over the course of two years, Heisenberg's group carried out the research necessary to create a nuclear reactor using uranium and heavy water. It was confirmed that only one of the isotopes, namely uranium-235, contained in very small concentrations in ordinary uranium ore, can serve as an explosive. The first problem was how to isolate it from there. The starting point of the bomb program was a nuclear reactor, which required graphite or heavy water as a reaction moderator. German physicists chose water, thereby creating a serious problem for themselves. After the occupation of Norway, the world's only heavy water production plant at that time passed into the hands of the Nazis. But there, at the beginning of the war, the supply of the product needed by physicists was only tens of kilograms, and even they did not go to the Germans - the French stole valuable products literally from under the noses of the Nazis. And in February 1943, British commandos sent to Norway, with the help of local resistance fighters, put the plant out of commission. The implementation of Germany's nuclear program was under threat. The misfortunes of the Germans did not end there: an experimental nuclear reactor exploded in Leipzig. The uranium project was supported by Hitler only as long as there was hope of obtaining super-powerful weapons before the end of the war he started. Heisenberg was invited by Speer and asked directly: “When can we expect the creation of a bomb capable of being suspended from a bomber?” The scientist was honest: “I believe it will take several years of hard work, in any case, the bomb will not be able to influence the outcome of the current war.” The German leadership rationally considered that there was no point in forcing events. Let the scientists work quietly - you'll see they'll be in time for the next war. As a result, Hitler decided to concentrate scientific, production and financial resources only on projects that would give the fastest return in the creation of new types of weapons. Government funding for the uranium project was curtailed. Nevertheless, the work of scientists continued.

In 1944, Heisenberg received cast uranium plates for a large reactor plant, for which a special bunker was already being built in Berlin. The last experiment to achieve a chain reaction was scheduled for January 1945, but on January 31 all the equipment was hastily dismantled and sent from Berlin to the village of Haigerloch near the Swiss border, where it was deployed only at the end of February. The reactor contained 664 cubes of uranium with a total weight of 1525 kg, surrounded by a graphite moderator-neutron reflector weighing 10 tons. In March 1945, an additional 1.5 tons of heavy water was poured into the core. On March 23, Berlin was reported that the reactor was operational. But the joy was premature - the reactor did not reach the critical point, the chain reaction did not start. After recalculations, it turned out that the amount of uranium must be increased by at least 750 kg, proportionally increasing the mass of heavy water. But there were no more reserves of either one or the other. The end of the Third Reich was inexorably approaching. On April 23, American troops entered Haigerloch. The reactor was dismantled and transported to the USA.

Meanwhile overseas

In parallel with the Germans (with only a slight lag), the development of atomic weapons began in England and the USA. They began with a letter sent in September 1939 by Albert Einstein to US President Franklin Roosevelt. The initiators of the letter and the authors of most of the text were physicists-emigrants from Hungary Leo Szilard, Eugene Wigner and Edward Teller. The letter drew the president's attention to the fact that Nazi Germany was conducting active research, as a result of which it might soon acquire an atomic bomb.

In the USSR, the first information about the work carried out by both the allies and the enemy was reported to Stalin by intelligence back in 1943. A decision was immediately made to launch similar work in the Union. Thus began the Soviet atomic project. Not only scientists received assignments, but also intelligence officers, for whom the extraction of nuclear secrets became a top priority.

The most valuable information about the work on the atomic bomb in the United States, obtained by intelligence, greatly helped the advancement of the Soviet nuclear project. The scientists participating in it were able to avoid dead-end search paths, thereby significantly accelerating the achievement of the final goal.

Experience of recent enemies and allies

Naturally, the Soviet leadership could not remain indifferent to German atomic developments. At the end of the war, a group of Soviet physicists was sent to Germany, among whom were future academicians Artsimovich, Kikoin, Khariton, Shchelkin. Everyone was camouflaged in the uniform of Red Army colonels. The operation was led by First Deputy People's Commissar of Internal Affairs Ivan Serov, which opened any doors. In addition to the necessary German scientists, the “colonels” found tons of uranium metal, which, according to Kurchatov, shortened the work on the Soviet bomb by at least a year. The Americans also removed a lot of uranium from Germany, taking along the specialists who worked on the project. And in the USSR, in addition to physicists and chemists, they sent mechanics, electrical engineers, and glassblowers. Some were found in prisoner of war camps. For example, Max Steinbeck, the future Soviet academician and vice-president of the Academy of Sciences of the GDR, was taken away when, at the whim of the camp commander, he was making a sundial. In total, at least 1,000 German specialists worked on the nuclear project in the USSR. The von Ardenne laboratory with a uranium centrifuge, equipment from the Kaiser Institute of Physics, documentation, and reagents were completely removed from Berlin. As part of the atomic project, laboratories “A”, “B”, “C” and “D” were created, the scientific directors of which were scientists who arrived from Germany.

Laboratory “A” was led by Baron Manfred von Ardenne, a talented physicist who developed a method of gas diffusion purification and separation of uranium isotopes in a centrifuge. At first, his laboratory was located on Oktyabrsky Pole in Moscow. Each German specialist was assigned five or six Soviet engineers. Later the laboratory moved to Sukhumi, and over time the famous Kurchatov Institute grew up on Oktyabrsky Field. In Sukhumi, on the basis of the von Ardenne laboratory, the Sukhumi Institute of Physics and Technology was formed. In 1947, Ardenne was awarded the Stalin Prize for creating a centrifuge for purifying uranium isotopes on an industrial scale. Six years later, Ardenne became a two-time Stalinist laureate. He lived with his wife in a comfortable mansion, his wife played music on a piano brought from Germany. Other German specialists were not offended either: they came with their families, brought with them furniture, books, paintings, and were provided with good salaries and food. Were they prisoners? Academician A.P. Aleksandrov, himself an active participant in the atomic project, noted: “Of course, the German specialists were prisoners, but we ourselves were prisoners.”

Nikolaus Riehl, a native of St. Petersburg who moved to Germany in the 1920s, became the head of Laboratory B, which conducted research in the field of radiation chemistry and biology in the Urals (now the city of Snezhinsk). Here, Riehl worked with his old friend from Germany, the outstanding Russian biologist-geneticist Timofeev-Resovsky (“Bison” based on the novel by D. Granin).

Having received recognition in the USSR as a researcher and talented organizer, able to find effective solutions to complex problems, Dr. Riehl became one of the key figures in the Soviet atomic project. After successfully testing a Soviet bomb, he became a Hero of Socialist Labor and a Stalin Prize laureate.

The work of Laboratory "B", organized in Obninsk, was headed by Professor Rudolf Pose, one of the pioneers in the field of nuclear research. Under his leadership, fast neutron reactors were created, the first nuclear power plant in the Union, and the design of reactors for submarines began. The facility in Obninsk became the basis for the organization of the Physics and Energy Institute named after A.I. Leypunsky. Pose worked until 1957 in Sukhumi, then at the Joint Institute for Nuclear Research in Dubna.

The head of Laboratory "G", located in the Sukhumi sanatorium "Agudzery", was Gustav Hertz, the nephew of the famous physicist of the 19th century, himself a famous scientist. He was recognized for a series of experiments that confirmed Niels Bohr's theory of the atom and quantum mechanics. The results of his very successful activities in Sukhumi were later used at an industrial installation built in Novouralsk, where in 1949 the filling for the first Soviet atomic bomb RDS-1 was developed. For his achievements within the framework of the atomic project, Gustav Hertz was awarded the Stalin Prize in 1951.

German specialists who received permission to return to their homeland (naturally, to the GDR) signed a non-disclosure agreement for 25 years about their participation in the Soviet atomic project. In Germany they continued to work in their specialty. Thus, Manfred von Ardenne, twice awarded the National Prize of the GDR, served as director of the Institute of Physics in Dresden, created under the auspices of the Scientific Council for the Peaceful Applications of Atomic Energy, headed by Gustav Hertz. Hertz also received a national prize as the author of a three-volume textbook on nuclear physics. Rudolf Pose also worked there, in Dresden, at the Technical University.

The participation of German scientists in the atomic project, as well as the successes of intelligence officers, in no way detract from the merits of Soviet scientists, whose selfless work ensured the creation of domestic atomic weapons. However, it must be admitted that without the contribution of both of them, the creation of the nuclear industry and atomic weapons in the USSR would have dragged on for many years.

Little Boy
The American uranium bomb that destroyed Hiroshima had a cannon design. Soviet nuclear scientists, when creating the RDS-1, were guided by the “Nagasaki bomb” - Fat Boy, made of plutonium using an implosion design.

Manfred von Ardenne, who developed a method for gas diffusion purification and separation of uranium isotopes in a centrifuge.

Operation Crossroads was a series of atomic bomb tests conducted by the United States at Bikini Atoll in the summer of 1946. The goal was to test the effect of atomic weapons on ships.

Help from overseas

In 1933, German communist Klaus Fuchs fled to England. Having received a degree in physics from the University of Bristol, he continued to work. In 1941, Fuchs reported his participation in atomic research to Soviet intelligence agent Jürgen Kuchinsky, who informed the Soviet ambassador Ivan Maisky. He instructed the military attaché to urgently establish contact with Fuchs, who was going to be transported to the United States as part of a group of scientists. Fuchs agreed to work for Soviet intelligence. Many Soviet illegal intelligence officers were involved in working with him: the Zarubins, Eitingon, Vasilevsky, Semenov and others. As a result of their active work, already in January 1945 the USSR had a description of the design of the first atomic bomb. At the same time, the Soviet station in the United States reported that the Americans would need at least one year, but no more than five years, to create a significant arsenal of atomic weapons. The report also said that the first two bombs could be detonated within a few months.

Pioneers of nuclear fission

K. A. Petrzhak and G. N. Flerov
In 1940, in the laboratory of Igor Kurchatov, two young physicists discovered a new, very unique type of radioactive decay of atomic nuclei - spontaneous fission.

Otto Hahn
In December 1938, German physicists Otto Hahn and Fritz Strassmann were the first in the world to artificially split the nucleus of a uranium atom.

Under what conditions and with what efforts did the country, which survived the most terrible war of the twentieth century, create its atomic shield?
Almost seven decades ago, on October 29, 1949, the Presidium of the Supreme Soviet of the USSR issued four top-secret decrees awarding 845 people the titles of Heroes of Socialist Labor, the Order of Lenin, the Red Banner of Labor and the Badge of Honor. In none of them was it said in relation to any of the recipients what exactly he was awarded for: the standard wording “for exceptional services to the state while performing a special task” appeared everywhere. Even for the Soviet Union, accustomed to secrecy, this was a rare occurrence. Meanwhile, the recipients themselves knew very well, of course, what kind of “exceptional merits” were meant. All 845 people were, to a greater or lesser extent, directly connected with the creation of the first nuclear bomb of the USSR.

It was not strange for the awardees that both the project itself and its success were shrouded in a thick veil of secrecy. After all, they all knew well that they owed their success to a large extent to the courage and professionalism of Soviet intelligence officers, who for eight years had been supplying scientists and engineers with top-secret information from abroad. And such a high assessment that the creators of the Soviet atomic bomb deserved was not exaggerated. As one of the creators of the bomb, academician Yuli Khariton, recalled, at the presentation ceremony Stalin suddenly said: “If we had been one to a year and a half late, we would probably have tried this charge on ourselves.” And this is not an exaggeration...

Atomic bomb sample... 1940

The Soviet Union came to the idea of creating a bomb that uses the energy of a nuclear chain reaction almost simultaneously with Germany and the United States. The first officially considered project of this type of weapon was presented in 1940 by a group of scientists from the Kharkov Institute of Physics and Technology under the leadership of Friedrich Lange. It was in this project that for the first time in the USSR, a scheme for detonating conventional explosives, which later became classic for all nuclear weapons, was proposed, due to which two subcritical masses of uranium are almost instantly formed into a supercritical one.

The project received negative reviews and was not considered further. But the work on which it was based continued, and not only in Kharkov. At least four large institutes were involved in atomic issues in the pre-war USSR - in Leningrad, Kharkov and Moscow, and the work was supervised by the Chairman of the Council of People's Commissars, Vyacheslav Molotov. Soon after the presentation of Lange's project, in January 1941, the Soviet government made a logical decision to classify domestic atomic research. It was clear that they could really lead to the creation of a new type of powerful technology, and such information should not be scattered, especially since it was at that time that the first intelligence data on the American atomic project was received - and Moscow did not want to risk its own.

The natural course of events was interrupted by the beginning of the Great Patriotic War. But, despite the fact that all Soviet industry and science were very quickly transferred to a military footing and began to provide the army with the most urgent developments and inventions, strength and means were also found to continue the atomic project. Although not right away. The resumption of research must be counted from the resolution of the State Defense Committee of February 11, 1943, which stipulated the beginning of practical work on the creation of an atomic bomb.

Project "Enormoz"

By this time, Soviet foreign intelligence was already working hard to obtain information on the Enormoz project - this is how the American atomic project was called in operational documents. The first meaningful data indicating that the West was seriously engaged in the creation of uranium weapons came from the London station in September 1941. And at the end of the same year, a message comes from the same source that America and Great Britain agreed to coordinate the efforts of their scientists in the field of atomic energy research. In war conditions, this could only be interpreted in one way: the allies were working on creating atomic weapons. And in February 1942, intelligence received documentary evidence that Germany was actively doing the same thing.

As the efforts of Soviet scientists, working according to their own plans, advanced, intelligence work intensified to obtain information about the American and British atomic projects. In December 1942, it became finally clear that the United States was clearly ahead of Britain in this area, and the main efforts were focused on obtaining data from overseas. In fact, every step of the participants in the “Manhattan Project,” as the work on creating the atomic bomb in the United States was called, was tightly controlled by Soviet intelligence. Suffice it to say that the most detailed information about the structure of the first real atomic bomb was received in Moscow less than two weeks after it was assembled in America.

That is why the boastful message of the new US President Harry Truman, who decided to stun Stalin at the Potsdam Conference with a statement that America had a new weapon of unprecedented destructive power, did not cause the reaction that the American was counting on. The Soviet leader listened calmly, nodded, and said nothing. Foreigners were sure that Stalin simply did not understand anything. In fact, the leader of the USSR sensibly appreciated Truman’s words and on the same evening demanded that Soviet specialists speed up work on creating their own atomic bomb as much as possible. But it was no longer possible to overtake America. Less than a month later, the first atomic mushroom grew over Hiroshima, and three days later - over Nagasaki. And over the Soviet Union hung the shadow of a new, nuclear war, and not with anyone, but with former allies.

Time forward!

Now, seventy years later, no one is surprised that the Soviet Union received the much-needed reserve of time to create its own superbomb, despite sharply deteriorating relations with ex-partners in the anti-Hitler coalition. After all, already on March 5, 1946, six months after the first atomic bombings, Winston Churchill’s famous Fulton speech was made, which marked the beginning of the Cold War. But, according to the plans of Washington and its allies, it was supposed to develop into a hot one later - at the end of 1949. After all, as it was hoped overseas, the USSR was not supposed to receive its own atomic weapons before the mid-1950s, which means there was nowhere to rush.

Atomic bomb tests. Photo: U.S. Air Force/AR

From today's heights, it seems surprising that the date of the start of the new world war - or rather, one of the dates of one of the main plans, Fleetwood - and the date of testing the first Soviet nuclear bomb: 1949. But in reality everything is natural. The foreign policy situation was heating up quickly, the former allies were speaking more and more harshly to each other. And in 1948, it became absolutely clear that Moscow and Washington, apparently, would no longer be able to come to an agreement with each other. Hence the need to count down the time before the start of a new war: a year is the deadline during which countries that have recently emerged from a colossal war can fully prepare for a new one, moreover, with a state that bore the brunt of the Victory on its shoulders. Even the nuclear monopoly did not give the United States the opportunity to shorten the preparation for war.

Foreign “accents” of the Soviet atomic bomb

We all understood this perfectly well. Since 1945, all work related to the atomic project has sharply intensified. During the first two post-war years, the USSR, tormented by the war and having lost a considerable part of its industrial potential, managed to create a colossal nuclear industry from scratch. Future nuclear centers emerged, such as Chelyabinsk-40, Arzamas-16, Obninsk, and large scientific institutes and production facilities emerged.

Not so long ago, a common point of view on the Soviet atomic project was this: they say, if not for intelligence, USSR scientists would not have been able to create any atomic bomb. In reality, everything was far from being as clear as the revisionists of Russian history tried to show. In fact, the data obtained by Soviet intelligence about the American atomic project allowed our scientists to avoid many mistakes that their American colleagues who had gone ahead inevitably had to make (whom, let us recall, the war did not seriously interfere with their work: the enemy did not invade US territory, and the country did not lose a few months half of the industry). In addition, intelligence data undoubtedly helped Soviet specialists evaluate the most advantageous designs and technical solutions that made it possible to assemble their own, more advanced atomic bomb.

And if we talk about the degree of foreign influence on the Soviet nuclear project, then, rather, we need to remember the several hundred German nuclear specialists who worked at two secret facilities near Sukhumi - in the prototype of the future Sukhumi Institute of Physics and Technology. They really helped greatly to advance work on the “product” - the first atomic bomb of the USSR, so much so that many of them were awarded Soviet orders by the same secret decrees of October 29, 1949. Most of these specialists went back to Germany five years later, settling mostly in the GDR (although there were also some who went to the West).

Objectively speaking, the first Soviet atomic bomb had, so to speak, more than one “accent.” After all, it was born as a result of a colossal cooperation of efforts of many people - both those who worked on the project of their own free will, and those who were involved in the work as prisoners of war or interned specialists. But the country, which at all costs needed to quickly obtain weapons that would equalize its chances with the ex-allies who were rapidly turning into mortal enemies, had no time for sentimentality.

Russia does it itself!

In the documents relating to the creation of the first nuclear bomb of the USSR, the term “product”, which later became popular, had not yet been encountered. Much more often it was officially called a “special jet engine,” or RDS for short. Although, of course, there was nothing reactive in the work on this design: the whole point was only in the strictest requirements of secrecy.

With the light hand of Academician Yuli Khariton, the unofficial decoding “Russia does it itself” very quickly became attached to the abbreviation RDS. There was a considerable amount of irony in this, since everyone knew how much the information obtained by intelligence had given our nuclear scientists, but also a large share of truth. After all, if the design of the first Soviet nuclear bomb was very similar to the American one (simply because the most optimal one was chosen, and the laws of physics and mathematics do not have national characteristics), then, say, the ballistic body and electronic filling of the first bomb were a purely domestic development.

When work on the Soviet atomic project had progressed far enough, the USSR leadership formulated tactical and technical requirements for the first atomic bombs. It was decided to simultaneously develop two types: an implosion-type plutonium bomb and a cannon-type uranium bomb, similar to that used by the Americans. The first received the RDS-1 index, the second, respectively, RDS-2.

According to the plan, RDS-1 was to be submitted for state tests by explosion in January 1948. But these deadlines could not be met: problems arose with the production and processing of the required amount of weapons-grade plutonium for its equipment. It was received only a year and a half later, in August 1949, and immediately went to Arzamas-16, where the almost finished first Soviet atomic bomb was waiting. Within a few days, specialists from the future VNIIEF completed the assembly of the “product”, and it went to the Semipalatinsk test site for testing.

The first rivet of Russia's nuclear shield

The first nuclear bomb of the USSR was detonated at seven o'clock in the morning on August 29, 1949. Almost a month passed before overseas people recovered from the shock caused by intelligence reports about the successful testing of our own “big stick” in our country. Only on September 23, Harry Truman, who had not so long ago boastfully informed Stalin about America’s successes in creating atomic weapons, made a statement that the same type of weapons was now available in the USSR.

Presentation of a multimedia installation in honor of the 65th anniversary of the creation of the first Soviet atomic bomb. Photo: Geodakyan Artem / TASS

Oddly enough, Moscow was in no hurry to confirm the Americans’ statements. On the contrary, TASS actually came out with a refutation of the American statement, arguing that the whole point is the colossal scale of construction in the USSR, which also involves the use of blasting operations using the latest technologies. True, at the end of the Tassov statement there was a more than transparent hint about possessing its own nuclear weapons. The agency reminded everyone interested that back on November 6, 1947, USSR Foreign Minister Vyacheslav Molotov stated that no secret of the atomic bomb had existed for a long time.

And this was twice true. By 1947, no information about atomic weapons was any longer a secret for the USSR, and by the end of the summer of 1949, it was no longer a secret to anyone that the Soviet Union had restored strategic parity with its main rival, the United States. A parity that has persisted for six decades. Parity, which is supported by Russia’s nuclear shield and which began on the eve of the Great Patriotic War.

Over the course of two years, Heisenberg's group carried out the research necessary to create a nuclear reactor using uranium and heavy water. It was confirmed that only one of the isotopes, namely uranium-235, contained in very small concentrations in ordinary uranium ore, can serve as an explosive. The first problem was how to isolate it from there. The starting point of the bomb program was a nuclear reactor, which required graphite or heavy water as a reaction moderator. German physicists chose water, thereby creating a serious problem for themselves. After the occupation of Norway, the world's only heavy water production plant at that time passed into the hands of the Nazis. But there, at the beginning of the war, the supply of the product needed by physicists was only tens of kilograms, and even they did not go to the Germans - the French stole valuable products literally from under the noses of the Nazis. And in February 1943, British commandos sent to Norway, with the help of local resistance fighters, put the plant out of commission. The implementation of Germany's nuclear program was under threat. The misfortunes of the Germans did not end there: an experimental nuclear reactor exploded in Leipzig. The uranium project was supported by Hitler only as long as there was hope of obtaining super-powerful weapons before the end of the war he started. Heisenberg was invited by Speer and asked directly: “When can we expect the creation of a bomb capable of being suspended from a bomber?” The scientist was honest: “I believe it will take several years of hard work, in any case, the bomb will not be able to influence the outcome of the current war.” The German leadership rationally considered that there was no point in forcing events. Let the scientists work calmly - you'll see they'll be in time for the next war. As a result, Hitler decided to concentrate scientific, production and financial resources only on projects that would give the fastest return in the creation of new types of weapons. Government funding for the uranium project was curtailed. Nevertheless, the work of scientists continued.

Manfred von Ardenne, who developed a method for gas diffusion purification and separation of uranium isotopes in a centrifuge.

Meanwhile overseas

Experience of recent enemies and allies

K.A. Petrzhak and G. N. Flerov In 1940, in the laboratory of Igor Kurchatov, two young physicists discovered a new, very unique type of radioactive decay of atomic nuclei - spontaneous fission.

In December 1938, German physicists Otto Hahn and Fritz Strassmann were the first in the world to artificially split the nucleus of a uranium atom.

There are two key areas in the area of a nuclear explosion: the center and the epicenter. At the center of the explosion, the process of energy release directly occurs. The epicenter is the projection of this process onto the earth or water surface. The energy of a nuclear explosion, projected onto the ground, can lead to seismic tremors that spread over a considerable distance. These tremors cause harm to the environment only within a radius of several hundred meters from the point of explosion.

Damaging factors

Atomic weapons have the following destruction factors:

Radioactive contamination.
Light radiation.
Shock wave.
Electromagnetic pulse.
Penetrating radiation.

The consequences of an atomic bomb explosion are disastrous for all living things. Due to the release of a huge amount of light and heat energy, the explosion of a nuclear projectile is accompanied by a bright flash. The power of this flash is several times stronger than the sun's rays, so there is a danger of damage from light and thermal radiation within a radius of several kilometers from the point of the explosion.

Another dangerous damaging factor of atomic weapons is the radiation generated during the explosion. It lasts only a minute after the explosion, but has maximum penetrating power.

The shock wave has a very strong destructive effect. She literally wipes out everything that stands in her way. Penetrating radiation poses a danger to all living beings. In humans, it causes the development of radiation sickness. Well, an electromagnetic pulse only harms technology. Taken together, the damaging factors of an atomic explosion pose a huge danger.

First tests

Throughout the history of the atomic bomb, America showed the greatest interest in its creation. At the end of 1941, the country's leadership allocated a huge amount of money and resources to this area. Robert Oppenheimer, who is considered by many to be the creator of the atomic bomb, was appointed project manager. In fact, he was the first who was able to bring the scientists' idea to life. As a result, on July 16, 1945, the first atomic bomb test took place in the desert of New Mexico. Then America decided that in order to completely end the war it needed to defeat Japan, an ally of Nazi Germany. The Pentagon quickly selected targets for the first nuclear attacks, which were supposed to become a vivid illustration of the power of American weapons.

On August 6, 1945, the US atomic bomb, cynically called "Little Boy", was dropped on the city of Hiroshima. The shot turned out to be simply perfect - the bomb exploded at an altitude of 200 meters from the ground, due to which its blast wave caused horrific damage to the city. In areas far from the center, coal stoves were overturned, leading to severe fires.

The bright flash was followed by a heat wave, which in 4 seconds managed to melt the tiles on the roofs of houses and incinerate telegraph poles. The heat wave was followed by a shock wave. The wind, which swept through the city at a speed of about 800 km/h, demolished everything in its path. Of the 76,000 buildings located in the city before the explosion, about 70,000 were completely destroyed. A few minutes after the explosion, rain began to fall from the sky, large drops of which were black. The rain fell due to the formation of a huge amount of condensation, consisting of steam and ash, in the cold layers of the atmosphere.

People who were affected by the fireball within a radius of 800 meters from the point of the explosion turned to dust. Those who were a little further from the explosion had burned skin, the remains of which were torn off by the shock wave. Black radioactive rain left incurable burns on the skin of survivors. Those who miraculously managed to escape soon began to show signs of radiation sickness: nausea, fever and attacks of weakness.

Three days after the bombing of Hiroshima, America attacked another Japanese city - Nagasaki. The second explosion had the same disastrous consequences as the first.

In a matter of seconds, two atomic bombs destroyed hundreds of thousands of people. The shock wave practically wiped Hiroshima off the face of the earth. More than half of the local residents (about 240 thousand people) died immediately from their injuries. In the city of Nagasaki, about 73 thousand people died from the explosion. Many of those who survived were subjected to severe radiation, which caused infertility, radiation sickness and cancer. As a result, some of the survivors died in terrible agony. The use of the atomic bomb in Hiroshima and Nagasaki illustrated the terrible power of these weapons.

You and I already know who invented the atomic bomb, how it works and what consequences it can lead to. Now we will find out how things were with nuclear weapons in the USSR.

After the bombing of Japanese cities, J.V. Stalin realized that the creation of a Soviet atomic bomb was a matter of national security. On August 20, 1945, a committee on nuclear energy was created in the USSR, and L. Beria was appointed head of it.

It is worth noting that work in this direction has been carried out in the Soviet Union since 1918, and in 1938, a special commission on the atomic nucleus was created at the Academy of Sciences. With the outbreak of World War II, all work in this direction was frozen.

In 1943, USSR intelligence officers transferred from England materials from closed scientific works in the field of nuclear energy. These materials illustrated that the work of foreign scientists on the creation of an atomic bomb had made serious progress. At the same time, American residents contributed to the introduction of reliable Soviet agents into the main US nuclear research centers. The agents passed on information about new developments to Soviet scientists and engineers.

Technical task

When in 1945 the issue of creating a Soviet nuclear bomb became almost a priority, one of the project leaders, Yu. Khariton, drew up a plan for the development of two versions of the projectile. On June 1, 1946, the plan was signed by senior management.

According to the assignment, the designers needed to build an RDS (special jet engine) of two models:

RDS-1. A bomb with a plutonium charge that is detonated by spherical compression. The device was borrowed from the Americans.
RDS-2. A cannon bomb with two uranium charges converging in the gun barrel before reaching a critical mass.

In the history of the notorious RDS, the most common, albeit humorous, formulation was the phrase “Russia does it itself.” It was invented by Yu. Khariton’s deputy, K. Shchelkin. This phrase very accurately conveys the essence of the work, at least for RDS-2.

When America learned that the Soviet Union possessed the secrets of creating nuclear weapons, it began to desire a rapid escalation of preventive war. In the summer of 1949, the “Troyan” plan appeared, according to which on January 1, 1950 it was planned to begin military operations against the USSR. Then the date of the attack was moved to the beginning of 1957, but with the condition that all NATO countries join it.

Tests

When information about America's plans arrived through intelligence channels in the USSR, the work of Soviet scientists accelerated significantly. Western experts believed that atomic weapons would be created in the USSR no earlier than 1954-1955. In fact, the tests of the first atomic bomb in the USSR took place already in August 1949. On August 29, an RDS-1 device was blown up at a test site in Semipalatinsk. A large team of scientists took part in its creation, headed by Igor Vasilievich Kurchatov. The design of the charge belonged to the Americans, and the electronic equipment was created from scratch. The first atomic bomb in the USSR exploded with a power of 22 kt.

Due to the likelihood of a retaliatory strike, the Trojan plan, which involved a nuclear attack on 70 Soviet cities, was thwarted. The tests at Semipalatinsk marked the end of the American monopoly on the possession of atomic weapons. The invention of Igor Vasilyevich Kurchatov completely destroyed the military plans of America and NATO and prevented the development of another world war. Thus began an era of peace on Earth, which exists under the threat of absolute destruction.

"Nuclear Club" of the world

Today, not only America and Russia have nuclear weapons, but also a number of other states. The collection of countries that own such weapons is conventionally called the “nuclear club.”

It includes:

America (since 1945).
USSR, and now Russia (since 1949).
England (since 1952).
France (since 1960).
China (since 1964).
India (since 1974).
Pakistan (since 1998).
Korea (since 2006).

Israel also has nuclear weapons, although the country's leadership refuses to comment on their presence. In addition, there are American nuclear weapons on the territory of NATO countries (Italy, Germany, Turkey, Belgium, the Netherlands, Canada) and allies (Japan, South Korea, despite the official refusal).

Ukraine, Belarus and Kazakhstan, which owned some of the USSR's nuclear weapons, transferred their bombs to Russia after the collapse of the Union. She became the sole heir to the USSR's nuclear arsenal.

Conclusion

Today we learned who invented the atomic bomb and what it is. Summarizing the above, we can conclude that nuclear weapons today are the most powerful instrument of global politics, firmly entrenched in relations between countries. On the one hand, it is an effective means of deterrence, and on the other, a convincing argument for preventing military confrontation and strengthening peaceful relations between states. Atomic weapons are a symbol of an entire era that require especially careful handling.