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 - as 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 that same day in the 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.

The investigation took place in April-May 1954 in Washington and was called, in the American manner, “hearings.”
Physicists (with a capital P!) participated in the hearings, but for the scientific world of America the conflict was unprecedented: not a dispute about priority, not the behind-the-scenes struggle of scientific schools, and not even the traditional confrontation between a forward-looking genius and a crowd of mediocre envious people. The key word in the proceedings was “loyalty.” The accusation of “disloyalty,” which acquired a negative, menacing meaning, entailed punishment: deprivation of access to work of the highest secrecy. The action took place at the Atomic Energy Commission (AEC). Main characters:

Robert Oppenheimer, a native of New York, pioneer of quantum physics in the USA, scientific director of the Manhattan Project, “father of the atomic bomb”, successful scientific manager and refined intellectual, after 1945 a national hero of America...

“I am not the simplest person,” American physicist Isidor Isaac Rabi once remarked. “But compared to Oppenheimer, I am very, very simple.” Robert Oppenheimer was one of the central figures of the twentieth century, whose very “complexity” absorbed the political and ethical contradictions of the country.

During World War II, the brilliant physicist Azulius Robert Oppenheimer led the development of American nuclear scientists to create the first atomic bomb in human history. The scientist led a solitary and secluded lifestyle, and this gave rise to suspicions of treason.

Atomic weapons are the result of all previous developments of science and technology. Discoveries that are directly related to its emergence were made at the end of the 19th century. The research of A. Becquerel, Pierre Curie and Marie Sklodowska-Curie, E. Rutherford and others played a huge role in revealing the secrets of the atom.

At the beginning of 1939, the French physicist Joliot-Curie concluded that a chain reaction was possible that would lead to an explosion of monstrous destructive force and that uranium could become a source of energy, like an ordinary explosive. This conclusion became the impetus for developments in the creation of nuclear weapons.

Europe was on the eve of World War II, and the potential possession of such a powerful weapon pushed militaristic circles to quickly create it, but the problem of having a large amount of uranium ore for large-scale research was a brake. Physicists from Germany, England, the USA, and Japan worked on the creation of atomic weapons, realizing that without a sufficient amount of uranium ore it was impossible to carry out work, the USA in September 1940 purchased a large amount of the required ore using false documents from Belgium, which allowed them to work on the creation nuclear weapons are in full swing.

From 1939 to 1945, more than two billion dollars were spent on the Manhattan Project. A huge uranium purification plant was built in Oak Ridge, Tennessee. H.C. Urey and Ernest O. Lawrence (inventor of the cyclotron) proposed a purification method based on the principle of gas diffusion followed by magnetic separation of the two isotopes. A gas centrifuge separated the light Uranium-235 from the heavier Uranium-238.

On the territory of the United States, in Los Alamos, in the desert expanses of New Mexico, an American nuclear center was created in 1942. Many scientists worked on the project, but the main one was Robert Oppenheimer. Under his leadership, the best minds of that time were gathered not only in the USA and England, but in almost all of Western Europe. A huge team worked on the creation of nuclear weapons, including 12 Nobel Prize laureates. Work in Los Alamos, where the laboratory was located, did not stop for a minute. In Europe, meanwhile, the Second World War was going on, and Germany carried out massive bombings of English cities, which endangered the English atomic project “Tub Alloys”, and England voluntarily transferred its developments and leading scientists of the project to the United States, which allowed the United States to take a leading position in the development of nuclear physics (creation of nuclear weapons).

“The Father of the Atomic Bomb,” he was at the same time an ardent opponent of American nuclear policy. Bearing the title of one of the most outstanding physicists of his time, he enjoyed studying the mysticism of ancient Indian books. A communist, a traveler, and a staunch American patriot, a very spiritual man, he was nevertheless willing to betray his friends in order to protect himself from the attacks of anti-communists. The scientist who developed the plan to cause the greatest damage to Hiroshima and Nagasaki cursed himself for the “innocent blood on his hands.”

Writing about this controversial man is not an easy task, but it is an interesting one, and the twentieth century is marked by a number of books about him. However, the scientist’s rich life continues to attract biographers.

Oppenheimer was born in New York in 1903 into a family of wealthy and educated Jews. Oppenheimer was brought up in a love of painting, music, and in an atmosphere of intellectual curiosity. In 1922, he entered Harvard University and graduated with honors in just three years, his main subject being chemistry. Over the next few years, the precocious young man traveled to several European countries, where he worked with physicists who were studying the problems of studying atomic phenomena in the light of new theories. Just a year after graduating from university, Oppenheimer published a scientific paper that showed how deeply he understood the new methods. Soon he, together with the famous Max Born, developed the most important part of quantum theory, known as the Born-Oppenheimer method. In 1927, his outstanding doctoral dissertation brought him worldwide fame.

In 1928 he worked at the Universities of Zurich and Leiden. The same year he returned to the USA. From 1929 to 1947, Oppenheimer taught at the University of California and the California Institute of Technology. From 1939 to 1945, he actively participated in the work on creating an atomic bomb as part of the Manhattan Project; heading the Los Alamos laboratory specially created for this purpose.

In 1929, Oppenheimer, a rising scientific star, accepted offers from two of several universities vying for the right to invite him. He taught the spring semester at the vibrant, young California Institute of Technology in Pasadena, and the fall and winter semesters at the University of California, Berkeley, where he became the first professor of quantum mechanics. In fact, the polymath had to adjust for some time, gradually reducing the level of discussion to the capabilities of his students. In 1936, he fell in love with Jean Tatlock, a restless and moody young woman whose passionate idealism found outlet in communist activism. Like many thoughtful people of the time, Oppenheimer explored the ideas of the left as a possible alternative, although he did not join the Communist Party, as his younger brother, sister-in-law and many of his friends did. His interest in politics, like his ability to read Sanskrit, was a natural result of his constant pursuit of knowledge. By his own account, he was also deeply alarmed by the explosion of anti-Semitism in Nazi Germany and Spain and invested $1,000 a year from his $15,000 annual salary in projects related to the activities of communist groups. After meeting Kitty Harrison, who became his wife in 1940, Oppenheimer broke up with Jean Tatlock and moved away from her circle of left-wing friends.

In 1939, the United States learned that Hitler's Germany had discovered nuclear fission in preparation for global war. Oppenheimer and other scientists immediately realized that the German physicists would try to create a controlled chain reaction that could be the key to creating a weapon far more destructive than any that existed at that time. Enlisting the help of the great scientific genius, Albert Einstein, concerned scientists warned President Franklin D. Roosevelt of the danger in a famous letter. In authorizing funding for projects aimed at creating untested weapons, the president acted in strict secrecy. Ironically, many of the world's leading scientists, forced to flee their homeland, worked together with American scientists in laboratories scattered throughout the country. One part of the university groups explored the possibility of creating a nuclear reactor, others took up the problem of separating uranium isotopes necessary to release energy in a chain reaction. Oppenheimer, who had previously been busy with theoretical problems, was offered to organize a wide range of work only at the beginning of 1942.

The US Army's atomic bomb program was codenamed Project Manhattan and was led by 46-year-old Colonel Leslie R. Groves, a career military officer. Groves, who characterized the scientists working on the atomic bomb as "an expensive bunch of nuts," however, acknowledged that Oppenheimer had a hitherto untapped ability to control his fellow debaters when the atmosphere became tense. The physicist proposed that all the scientists be brought together in one laboratory in the quiet provincial town of Los Alamos, New Mexico, in an area he knew well. By March 1943, the boarding school for boys had been turned into a strictly guarded secret center, with Oppenheimer becoming its scientific director. By insisting on the free exchange of information between scientists, who were strictly forbidden to leave the center, Oppenheimer created an atmosphere of trust and mutual respect, which contributed to the amazing success of his work. Without sparing himself, he remained the head of all areas of this complex project, although his personal life suffered greatly from this. But for a mixed group of scientists - among whom there were more than a dozen then or future Nobel laureates and of whom it was a rare individual who did not have a strong personality - Oppenheimer was an unusually dedicated leader and a keen diplomat. Most of them would agree that the lion's share of the credit for the project's ultimate success belongs to him. By December 30, 1944, Groves, who had by then become a general, could say with confidence that the two billion dollars spent would produce a bomb ready for action by August 1 of the following year. But when Germany admitted defeat in May 1945, many of the researchers working at Los Alamos began to think about using new weapons. After all, Japan would probably have soon capitulated even without the atomic bombing. Should the United States become the first country in the world to use such a terrible device? Harry S. Truman, who became president after Roosevelt's death, appointed a committee to study the possible consequences of the use of the atomic bomb, which included Oppenheimer. Experts decided to recommend dropping an atomic bomb without warning on a large Japanese military installation. Oppenheimer's consent was also obtained.
All these worries would, of course, be moot if the bomb had not gone off. The world's first atomic bomb was tested on July 16, 1945, approximately 80 kilometers from the air force base in Alamogordo, New Mexico. The device being tested, named "Fat Man" for its convex shape, was attached to a steel tower installed in a desert area. At exactly 5:30 a.m., a remote-controlled detonator detonated the bomb. With an echoing roar, a giant purple-green-orange fireball shot into the sky across an area 1.6 kilometers in diameter. The earth shook from the explosion, the tower disappeared. A white column of smoke quickly rose to the sky and began to gradually expand, taking on the terrifying shape of a mushroom at an altitude of about 11 kilometers. The first nuclear explosion shocked scientific and military observers near the test site and turned their heads. But Oppenheimer remembered the lines from the Indian epic poem "Bhagavad Gita": "I will become Death, the destroyer of worlds." Until the end of his life, satisfaction from scientific success was always mixed with a sense of responsibility for the consequences.
On the morning of August 6, 1945, there was a clear, cloudless sky over Hiroshima. As before, the approach of two American planes from the east (one of them was called Enola Gay) at an altitude of 10-13 km did not cause alarm (since they appeared in the sky of Hiroshima every day). One of the planes dived and dropped something, and then both planes turned and flew away. The dropped object slowly descended by parachute and suddenly exploded at an altitude of 600 m above the ground. It was the Baby bomb.

Three days after "Little Boy" was detonated in Hiroshima, a replica of the first "Fat Man" was dropped on the city of Nagasaki. On August 15, Japan, whose resolve was finally broken by these new weapons, signed an unconditional surrender. However, the voices of skeptics had already begun to be heard, and Oppenheimer himself predicted two months after Hiroshima that “mankind will curse the names Los Alamos and Hiroshima.”

The whole world was shocked by the explosions in Hiroshima and Nagasaki. Tellingly, Oppenheimer managed to combine his worries about testing a bomb on civilians and the joy that the weapon had finally been tested.

Nevertheless, the following year he accepted an appointment as chairman of the scientific council of the Atomic Energy Commission (AEC), thereby becoming the most influential adviser to the government and military on nuclear issues. While the West and the Stalin-led Soviet Union prepared in earnest for the Cold War, each side focused its attention on the arms race. Although many of the Manhattan Project scientists did not support the idea of ​​creating a new weapon, former Oppenheimer collaborators Edward Teller and Ernest Lawrence believed that US national security required the rapid development of the hydrogen bomb. Oppenheimer was horrified. From his point of view, the two nuclear powers were already confronting each other, like “two scorpions in a jar, each capable of killing the other, but only at the risk of his own life.” With the proliferation of new weapons, wars would no longer have winners and losers - only victims. And the “father of the atomic bomb” made a public statement that he was against the development of the hydrogen bomb. Always uncomfortable with Oppenheimer and clearly jealous of his achievements, Teller began to make efforts to head the new project, implying that Oppenheimer should no longer be involved in the work. He told FBI investigators that his rival was using his authority to keep scientists from working on the hydrogen bomb, and revealed the secret that Oppenheimer suffered from bouts of severe depression in his youth. When President Truman agreed to fund the hydrogen bomb in 1950, Teller could celebrate victory.

In 1954, Oppenheimer's enemies launched a campaign to remove him from power, which they succeeded after a month-long search for "black spots" in his personal biography. As a result, a show case was organized in which many influential political and scientific figures spoke out against Oppenheimer. As Albert Einstein later put it: “Oppenheimer’s problem was that he loved a woman who didn’t love him: the US government.”

By allowing Oppenheimer's talent to flourish, America doomed him to destruction.

Oppenheimer is known not only as the creator of the American atomic bomb. He is the author of many works on quantum mechanics, the theory of relativity, elementary particle physics, and theoretical astrophysics. In 1927 he developed the theory of interaction of free electrons with atoms. Together with Born, he created the theory of the structure of diatomic molecules. In 1931, he and P. Ehrenfest formulated a theorem, the application of which to the nitrogen nucleus showed that the proton-electron hypothesis of the structure of nuclei leads to a number of contradictions with the known properties of nitrogen. Investigated the internal conversion of g-rays. In 1937 he developed the cascade theory of cosmic showers, in 1938 he made the first calculation of a neutron star model, and in 1939 he predicted the existence of “black holes”.

Oppenheimer owns a number of popular books, including Science and the Common Understanding (1954), The Open Mind (1955), Some Reflections on Science and Culture (1960) . Oppenheimer died in Princeton on February 18, 1967.

Work on nuclear projects in the USSR and the USA began simultaneously. In August 1942, the secret “Laboratory No. 2” began working in one of the buildings in the courtyard of Kazan University. Igor Kurchatov was appointed its leader.

In Soviet times, it was argued that the USSR solved its atomic problem completely independently, and Kurchatov was considered the “father” of the domestic atomic bomb. Although there were rumors about some secrets stolen from the Americans. And only in the 90s, 50 years later, one of the main characters then, Yuli Khariton, spoke about the significant role of intelligence in accelerating the lagging Soviet project. And American scientific and technical results were obtained by Klaus Fuchs, who arrived in the English group.

Information from abroad helped the country's leadership make a difficult decision - to begin work on nuclear weapons during a difficult war. The reconnaissance allowed our physicists to save time and helped to avoid a “misfire” during the first atomic test, which had enormous political significance.

In 1939, a chain reaction of fission of uranium-235 nuclei was discovered, accompanied by the release of colossal energy. Soon after, articles on nuclear physics began to disappear from the pages of scientific journals. This could indicate the real prospect of creating an atomic explosive and weapons based on it.

After the discovery by Soviet physicists of the spontaneous fission of uranium-235 nuclei and the determination of the critical mass, a corresponding directive was sent to the residency on the initiative of the head of the scientific and technological revolution L. Kvasnikov.

In the FSB of Russia (formerly the KGB of the USSR), 17 volumes of archival file No. 13676, which document who and how recruited US citizens to work for Soviet intelligence, are buried under the heading “keep forever.” Only a few of the top leadership of the USSR KGB had access to the materials of this case, the secrecy of which was only recently lifted. Soviet intelligence received the first information about the work on creating an American atomic bomb in the fall of 1941. And already in March 1942, extensive information about the research ongoing in the USA and England fell on I.V. Stalin’s desk. According to Yu. B. Khariton, in that dramatic period it was safer to use the bomb design already tested by the Americans for our first explosion. “Taking into account state interests, any other solution was then unacceptable. The merit of Fuchs and our other assistants abroad is undoubted. However, we implemented the American scheme during the first test not so much for technical, but for political reasons.

The message that the Soviet Union had mastered the secret of nuclear weapons caused the US ruling circles to want to start a preventive war as quickly as possible. The Troyan plan was developed, which envisaged the start of hostilities on January 1, 1950. At that time, the United States had 840 strategic bombers in combat units, 1,350 in reserve, and over 300 atomic bombs.

A test site was built in the area of ​​Semipalatinsk. At exactly 7:00 a.m. on August 29, 1949, the first Soviet nuclear device, codenamed RDS-1, was detonated at this test site.

The Troyan plan, according to which atomic bombs were to be dropped on 70 cities of the USSR, was thwarted due to the threat of a retaliatory strike. The event that took place at the Semipalatinsk test site informed the world about the creation of nuclear weapons in the USSR.

Foreign intelligence not only attracted the attention of the country's leadership to the problem of creating atomic weapons in the West and thereby initiated similar work in our country. Thanks to foreign intelligence information, as recognized by academicians A. Aleksandrov, Yu. Khariton and others, I. Kurchatov did not make big mistakes, we managed to avoid dead-end directions in the creation of atomic weapons and create an atomic bomb in the USSR in a shorter time, in just three years , while the United States spent four years on this, spending five billion dollars on its creation.
As he noted in an interview with the Izvestia newspaper on December 8, 1992, the first Soviet atomic charge was manufactured according to the American model with the help of information received from K. Fuchs. According to the academician, when government awards were presented to participants in the Soviet atomic project, Stalin, satisfied that there was no American monopoly in this area, remarked: “If we had been one to a year and a half late, we would probably have tried this charge on ourselves.” ".

The history of human development has always been accompanied by wars as a way to resolve conflicts through violence. Civilization has suffered more than fifteen thousand small and large armed conflicts, the loss of human lives is estimated in the millions. In the nineties of the last century alone, more than a hundred military clashes occurred, involving ninety countries of the world.

At the same time, scientific discoveries and technological progress have made it possible to create weapons of destruction of ever greater power and sophistication of use. In the twentieth century Nuclear weapons became the peak of mass destructive impact and a political instrument.

Atomic bomb device

Modern nuclear bombs as means of destroying the enemy are created on the basis of advanced technical solutions, the essence of which is not widely publicized. But the main elements inherent in this type of weapon can be examined using the example of the design of a nuclear bomb codenamed “Fat Man,” dropped in 1945 on one of the cities of Japan.

The power of the explosion was 22.0 kt in TNT equivalent.

It had the following design features:

• the length of the product was 3250.0 mm, with a diameter of the volumetric part - 1520.0 mm. Total weight more than 4.5 tons;
• the body is elliptical in shape. To avoid premature destruction due to anti-aircraft ammunition and other unwanted impacts, 9.5 mm armored steel was used for its manufacture;
• the body is divided into four internal parts: the nose, two halves of the ellipsoid (the main one is a compartment for the nuclear filling), and the tail.
• the bow compartment is equipped with batteries;
• the main compartment, like the nasal one, is vacuumized to prevent the entry of harmful environments, moisture, and to create comfortable conditions for the bearded man to work;
• the ellipsoid housed a plutonium core surrounded by a uranium tamper (shell). It played the role of an inertial limiter for the course of the nuclear reaction, ensuring maximum activity of weapons-grade plutonium by reflecting neutrons to the side of the active zone of the charge.

A primary source of neutrons, called an initiator or “hedgehog,” was placed inside the nucleus. Represented by beryllium spherical in diameter 20.0 mm with polonium-based outer coating - 210.

It should be noted that the expert community has determined that this design of nuclear weapons is ineffective and unreliable in use. Neutron initiation of the uncontrolled type was not used further .

Operating principle

The process of fission of the nuclei of uranium 235 (233) and plutonium 239 (this is what a nuclear bomb is made of) with a huge release of energy while limiting the volume is called a nuclear explosion. The atomic structure of radioactive metals has an unstable form - they are constantly divided into other elements.

The process is accompanied by the detachment of neurons, some of which fall on neighboring atoms and initiate a further reaction, accompanied by the release of energy.

The principle is as follows: shortening the decay time leads to greater intensity of the process, and the concentration of neurons on bombarding the nuclei leads to a chain reaction. When two elements are combined to a critical mass, a supercritical mass is created, leading to an explosion.

In everyday conditions, it is impossible to provoke an active reaction - high speeds of approach of the elements are needed - at least 2.5 km/s. Achieving this speed in a bomb is possible by using combining types of explosives (fast and slow), balancing the density of the supercritical mass producing an atomic explosion.

Nuclear explosions are attributed to the results of human activity on the planet or its orbit. Natural processes of this kind are possible only on some stars in outer space.

Atomic bombs are rightfully considered the most powerful and destructive weapons of mass destruction. Tactical use solves the problem of destroying strategic, military targets on the ground, as well as deep-based ones, defeating a significant accumulation of enemy equipment and manpower.

It can be applied globally only with the goal of complete destruction of the population and infrastructure in large areas.

To achieve certain goals and perform tactical and strategic tasks, explosions of atomic weapons can be carried out by:

• at critical and low altitudes (above and below 30.0 km);
• in direct contact with the earth's crust (water);
• underground (or underwater explosion).

A nuclear explosion is characterized by the instantaneous release of enormous energy.

Leading to damage to objects and people as follows:

• Shock wave. When an explosion occurs above or on the earth's crust (water) it is called an air wave; underground (water) it is called a seismic explosion wave. An air wave is formed after critical compression of air masses and propagates in a circle until attenuation at a speed exceeding sound. Leads to both direct damage to manpower and indirect damage (interaction with fragments of destroyed objects). The action of excess pressure makes the equipment non-functional by moving and hitting the ground;
• Light radiation. The source is the light part formed by the evaporation of the product with air masses; for ground use, it is soil vapor. The effect occurs in the ultraviolet and infrared spectrum. Its absorption by objects and people provokes charring, melting and burning. The degree of damage depends on the distance of the epicenter;
• Penetrating radiation- these are neutrons and gamma rays moving from the place of rupture. Exposure to biological tissue leads to ionization of cell molecules, leading to radiation sickness in the body. Damage to property is associated with fission reactions of molecules in the damaging elements of ammunition.
• Radioactive contamination. During a ground explosion, soil vapors, dust, and other things rise. A cloud appears, moving in the direction of the movement of air masses. Sources of damage are represented by fission products of the active part of a nuclear weapon, isotopes, and undestroyed parts of the charge. When a radioactive cloud moves, continuous radiation contamination of the area occurs;
• Electromagnetic pulse. The explosion is accompanied by the appearance of electromagnetic fields (from 1.0 to 1000 m) in the form of a pulse. They lead to failure of electrical devices, controls and communications.

The combination of factors of a nuclear explosion causes varying levels of damage to enemy personnel, equipment and infrastructure, and the fatality of the consequences is associated only with the distance from its epicenter.

History of the creation of nuclear weapons

The creation of weapons using nuclear reactions was accompanied by a number of scientific discoveries, theoretical and practical research, including:

• 1905— the theory of relativity was created, which states that a small amount of matter corresponds to a significant release of energy according to the formula E = mc2, where “c” represents the speed of light (author A. Einstein);
• 1938— German scientists conducted an experiment on dividing an atom into parts by attacking uranium with neutrons, which ended successfully (O. Hann and F. Strassmann), and a physicist from Great Britain explained the fact of the release of energy (R. Frisch);
• 1939- scientists from France that when carrying out a chain of reactions of uranium molecules, energy will be released that can produce an explosion of enormous force (Joliot-Curie).

The latter became the starting point for the invention of atomic weapons. Parallel development was carried out by Germany, Great Britain, the USA, and Japan. The main problem was the extraction of uranium in the required volumes for conducting experiments in this area.

The problem was solved faster in the USA by purchasing raw materials from Belgium in 1940.

As part of the project, called Manhattan, from 1939 to 1945, a uranium purification plant was built, a center for the study of nuclear processes was created, and the best specialists - physicists from all over Western Europe - were recruited to work there.

Great Britain, which carried out its own developments, was forced, after the German bombing, to voluntarily transfer the developments on its project to the US military.

It is believed that the Americans were the first to invent the atomic bomb. Tests of the first nuclear charge were carried out in the state of New Mexico in July 1945. The flash from the explosion darkened the sky and the sandy landscape turned to glass. After a short period of time, nuclear charges called “Baby” and “Fat Man” were created.

Nuclear weapons in the USSR - dates and events

The emergence of the USSR as a nuclear power was preceded by long work by individual scientists and government institutions. Key periods and significant dates of events are presented as follows:

• 1920 considered the beginning of the work of Soviet scientists on atomic fission;
• Since the thirties the direction of nuclear physics becomes a priority;
• October 1940— an initiative group of physicists came up with a proposal to use atomic developments for military purposes;
• Summer 1941 in connection with the war, nuclear energy institutes were transferred to the rear;
• Autumn 1941 year, Soviet intelligence informed the country's leadership about the beginning of nuclear programs in Britain and America;
• September 1942- atomic research began to be carried out in full, work on uranium continued;
• February 1943— a special research laboratory was created under the leadership of I. Kurchatov, and general management was entrusted to V. Molotov;

The project was led by V. Molotov.

• August 1945- in connection with the conduct of nuclear bombing in Japan, the high importance of developments for the USSR, a Special Committee was created under the leadership of L. Beria;
• April 1946- KB-11 was created, which began to develop samples of Soviet nuclear weapons in two versions (using plutonium and uranium);
• Mid 1948— work on uranium was stopped due to low efficiency and high costs;
• August 1949- when the atomic bomb was invented in the USSR, the first Soviet nuclear bomb was tested.

The reduction in product development time was facilitated by the high-quality work of intelligence agencies, who were able to obtain information on American nuclear developments. Among those who first created the atomic bomb in the USSR was a team of scientists led by Academician A. Sakharov. They have developed more promising technical solutions than those used by the Americans.

Atomic bomb "RDS-1"

In 2015 - 2017, Russia made a breakthrough in improving nuclear weapons and their delivery systems, thereby declaring a state capable of repelling any aggression.

First atomic bomb tests

After testing an experimental nuclear bomb in New Mexico in the summer of 1945, the Japanese cities of Hiroshima and Nagasaki were bombed on August 6 and 9, respectively.

The development of the atomic bomb was completed this year

In 1949, under conditions of increased secrecy, Soviet designers of KB-11 and scientists completed the development of an atomic bomb called RDS-1 (jet engine “S”). On August 29, the first Soviet nuclear device was tested at the Semipalatinsk test site. The Russian atomic bomb - RDS-1 was a “drop-shaped” product, weighing 4.6 tons, with a volumetric diameter of 1.5 m, and a length of 3.7 meters.

The active part included a plutonium block, which made it possible to achieve an explosion power of 20.0 kilotons, commensurate with TNT. The testing site covered a radius of twenty kilometers. The specifics of the test detonation conditions have not been made public to date.

On September 3 of the same year, American aviation intelligence established the presence in the air masses of Kamchatka of traces of isotopes indicating the testing of a nuclear charge. On the twenty-third, the top US official publicly announced that the USSR had succeeded in testing an atomic bomb.

The Soviet Union refuted the American statements with a TASS report, which spoke of large-scale construction on the territory of the USSR and large volumes of construction, including blasting, work, which caused the attention of foreigners. The official statement that the USSR had atomic weapons was made only in 1950. Therefore, there is still ongoing debate in the world about who was the first to invent the atomic bomb.

The one who invented the atomic bomb could not even imagine what tragic consequences this miracle invention of the 20th century could lead to. It was a very long journey before the residents of the Japanese cities of Hiroshima and Nagasaki experienced this superweapon.

A start

In April 1903, Paul Langevin's friends gathered in the Parisian garden of France. The reason was the defense of the dissertation of the young and talented scientist Marie Curie. Among the distinguished guests was the famous English physicist Sir Ernest Rutherford. In the midst of the fun, the lights were turned off. announced to everyone that there would be a surprise. With a solemn look, Pierre Curie brought in a small tube with radium salts, which shone with a green light, causing extraordinary delight among those present. Subsequently, the guests heatedly discussed the future of this phenomenon. Everyone agreed that radium would solve the acute problem of energy shortages. This inspired everyone for new research and further prospects. If they had been told then that laboratory work with radioactive elements would lay the foundation for the terrible weapons of the 20th century, it is not known what their reaction would have been. It was then that the story of the atomic bomb began, killing hundreds of thousands of Japanese civilians.

Playing ahead

On December 17, 1938, the German scientist Otto Gann obtained irrefutable evidence of the decay of uranium into smaller elementary particles. Essentially, he managed to split the atom. In the scientific world, this was regarded as a new milestone in the history of mankind. Otto Gann did not share the political views of the Third Reich. Therefore, in the same year, 1938, the scientist was forced to move to Stockholm, where, together with Friedrich Strassmann, he continued his scientific research. Fearing that Nazi Germany will be the first to receive terrible weapons, he writes a letter warning about this. The news of a possible advance greatly alarmed the US government. The Americans began to act quickly and decisively.

Who created the atomic bomb? American project

Even before the group, many of whom were refugees from the Nazi regime in Europe, was tasked with the development of nuclear weapons. Initial research, it is worth noting, was carried out in Nazi Germany. In 1940, the government of the United States of America began funding its own program to develop atomic weapons. An incredible sum of two and a half billion dollars was allocated to implement the project. Outstanding physicists of the 20th century were invited to implement this secret project, among whom were more than ten Nobel laureates. In total, about 130 thousand employees were involved, among whom were not only military personnel, but also civilians. The development team was headed by Colonel Leslie Richard Groves, and Robert Oppenheimer became the scientific director. He is the man who invented the atomic bomb. A special secret engineering building was built in the Manhattan area, which we know under the code name “Manhattan Project”. Over the next few years, scientists from the secret project worked on the problem of nuclear fission of uranium and plutonium.

The non-peaceful atom of Igor Kurchatov

Today, every schoolchild will be able to answer the question of who invented the atomic bomb in the Soviet Union. And then, in the early 30s of the last century, no one knew this.

In 1932, Academician Igor Vasilyevich Kurchatov was one of the first in the world to begin studying the atomic nucleus. Gathering like-minded people around him, Igor Vasilyevich created the first cyclotron in Europe in 1937. In the same year, he and his like-minded people created the first artificial nuclei.

In 1939, I.V. Kurchatov began studying a new direction - nuclear physics. After several laboratory successes in studying this phenomenon, the scientist receives at his disposal a secret research center, which was named “Laboratory No. 2”. Nowadays this classified object is called "Arzamas-16".

The target direction of this center was the serious research and creation of nuclear weapons. Now it becomes obvious who created the atomic bomb in the Soviet Union. His team then consisted of only ten people.

There will be an atomic bomb

By the end of 1945, Igor Vasilyevich Kurchatov managed to assemble a serious team of scientists numbering more than a hundred people. The best minds of various scientific specializations came to the laboratory from all over the country to create atomic weapons. After the Americans dropped an atomic bomb on Hiroshima, Soviet scientists realized that this could be done with the Soviet Union. "Laboratory No. 2" receives from the country's leadership a sharp increase in funding and a large influx of qualified personnel. Lavrenty Pavlovich Beria is appointed responsible for such an important project. The enormous efforts of Soviet scientists have borne fruit.

Semipalatinsk test site

The atomic bomb in the USSR was first tested at the test site in Semipalatinsk (Kazakhstan). On August 29, 1949, a nuclear device with a yield of 22 kilotons shook the Kazakh soil. Nobel laureate physicist Otto Hanz said: “This is good news. If Russia has atomic weapons, then there will be no war.” It was this atomic bomb in the USSR, encrypted as product No. 501, or RDS-1, that eliminated the US monopoly on nuclear weapons.

Atomic bomb. Year 1945

In the early morning of July 16, the Manhattan Project conducted its first successful test of an atomic device - a plutonium bomb - at the Alamogordo test site in New Mexico, USA.

The money invested in the project was well spent. The first in the history of mankind was carried out at 5:30 am.

“We have done the devil’s work,” the one who invented the atomic bomb in the USA, later called “the father of the atomic bomb,” will say later.

Japan will not capitulate

By the time of the final and successful testing of the atomic bomb, Soviet troops and allies had finally defeated Nazi Germany. However, there was one state that promised to fight to the end for dominance in the Pacific Ocean. From mid-April to mid-July 1945, the Japanese army repeatedly carried out air strikes against allied forces, thereby inflicting heavy losses on the US army. At the end of July 1945, the militaristic Japanese government rejected the Allied demand for surrender under the Potsdam Declaration. It stated, in particular, that in case of disobedience, the Japanese army would face rapid and complete destruction.

The President agrees

The American government kept its word and began a targeted bombing of Japanese military positions. Air strikes did not bring the desired result, and US President Harry Truman decides to invade Japanese territory by American troops. However, the military command dissuades its president from such a decision, citing the fact that an American invasion would entail a large number of casualties.

At the suggestion of Henry Lewis Stimson and Dwight David Eisenhower, it was decided to use a more effective way to end the war. A big supporter of the atomic bomb, US Presidential Secretary James Francis Byrnes, believed that the bombing of Japanese territories would finally end the war and put the United States in a dominant position, which would have a positive impact on the further course of events in the post-war world. Thus, US President Harry Truman was convinced that this was the only correct option.

Atomic bomb. Hiroshima

The small Japanese city of Hiroshima with a population of just over 350 thousand people, located five hundred miles from the Japanese capital Tokyo, was chosen as the first target. After the modified B-29 Enola Gay bomber arrived at the US naval base on Tinian Island, an atomic bomb was installed on board the aircraft. Hiroshima was to experience the effects of 9 thousand pounds of uranium-235.

This never-before-seen weapon was intended for civilians in a small Japanese town. The bomber's commander was Colonel Paul Warfield Tibbetts Jr. The US atomic bomb bore the cynical name “Baby”. On the morning of August 6, 1945, at approximately 8:15 a.m., the American “Little” was dropped on Hiroshima, Japan. About 15 thousand tons of TNT destroyed all life within a radius of five square miles. One hundred and forty thousand city residents died in a matter of seconds. The surviving Japanese died a painful death from radiation sickness.

They were destroyed by the American atomic “Baby”. However, the devastation of Hiroshima did not cause the immediate surrender of Japan, as everyone expected. Then it was decided to carry out another bombing of Japanese territory.

Nagasaki. The sky is on fire

The American atomic bomb “Fat Man” was installed on board a B-29 aircraft on August 9, 1945, still there, at the US naval base in Tinian. This time the aircraft commander was Major Charles Sweeney. Initially, the strategic target was the city of Kokura.

However, weather conditions did not allow the plan to be carried out; heavy clouds interfered. Charles Sweeney went into the second round. At 11:02 a.m., the American nuclear “Fat Man” engulfed Nagasaki. It was a more powerful destructive air strike, which was several times stronger than the bombing in Hiroshima. Nagasaki tested an atomic weapon weighing about 10 thousand pounds and 22 kilotons of TNT.

The geographic location of the Japanese city reduced the expected effect. The thing is that the city is located in a narrow valley between the mountains. Therefore, the destruction of 2.6 square miles did not reveal the full potential of American weapons. The Nagasaki atomic bomb test is considered the failed Manhattan Project.

Japan surrendered

At noon on August 15, 1945, Emperor Hirohito announced his country's surrender in a radio address to the people of Japan. This news quickly spread around the world. Celebrations began in the United States of America to mark the victory over Japan. The people rejoiced.

On September 2, 1945, a formal agreement to end the war was signed aboard the American battleship Missouri anchored in Tokyo Bay. Thus ended the most brutal and bloody war in human history.

For six long years, the world community has been moving towards this significant date - since September 1, 1939, when the first shots of Nazi Germany were fired in Poland.

Peaceful atom

In total, 124 nuclear explosions were carried out in the Soviet Union. What is characteristic is that all of them were carried out for the benefit of the national economy. Only three of them were accidents that resulted in the leakage of radioactive elements. Programs for the use of peaceful atoms were implemented in only two countries - the USA and the Soviet Union. Nuclear peaceful energy also knows an example of a global catastrophe, when a reactor exploded at the fourth power unit of the Chernobyl nuclear power plant.

Third Reich Victoria Viktorovna Bulavina

Who invented the nuclear bomb?

Who invented the nuclear bomb?

The Nazi Party always recognized the great importance of technology and invested heavily in the development of missiles, aircraft and tanks. But the most outstanding and dangerous discovery was made in the field of nuclear physics. Germany was perhaps the leader in nuclear physics in the 1930s. However, with the Nazis coming to power, many German physicists who were Jews left the Third Reich. Some of them emigrated to the United States, bringing with them disturbing news: Germany may be working on an atomic bomb. This news prompted the Pentagon to take steps to develop its own atomic program, which was called the Manhattan Project...

An interesting, but more than dubious version of the “secret weapon of the Third Reich” was proposed by Hans Ulrich von Kranz. His book “The Secret Weapons of the Third Reich” puts forward the version that the atomic bomb was created in Germany and that the United States only imitated the results of the Manhattan Project. But let's talk about this in more detail.

Otto Hahn, the famous German physicist and radiochemist, together with another prominent scientist Fritz Straussmann, discovered the fission of the uranium nucleus in 1938, essentially giving rise to work on the creation of nuclear weapons. In 1938, atomic developments were not classified, but in virtually no country except Germany, they were not given due attention. They didn't see much point. British Prime Minister Neville Chamberlain argued: “This abstract matter has nothing to do with state needs.” Professor Hahn assessed the state of nuclear research in the United States of America as follows: “If we talk about a country in which the least attention is paid to nuclear fission processes, then we should undoubtedly name the United States. Of course, I'm not considering Brazil or the Vatican right now. However, among developed countries, even Italy and communist Russia are significantly ahead of the United States.” He also noted that little attention is paid to the problems of theoretical physics on the other side of the ocean; priority is given to applied developments that can provide immediate profit. Hahn's verdict was unequivocal: "I can say with confidence that within the next decade the North Americans will not be able to do anything significant for the development of atomic physics." This statement served as the basis for constructing the von Kranz hypothesis. Let's consider his version.

At the same time, the Alsos group was created, whose activities boiled down to “headhunting” and searching for the secrets of German atomic research. A logical question arises here: why should Americans look for other people’s secrets if their own project is in full swing? Why did they rely so much on other people's research?

In the spring of 1945, thanks to the activities of Alsos, many scientists who took part in German nuclear research fell into the hands of the Americans. By May they had Heisenberg, Hahn, Osenberg, Diebner, and many other outstanding German physicists. But the Alsos group continued active searches in already defeated Germany - until the very end of May. And only when all the major scientists were sent to America, Alsos ceased its activities. And at the end of June, the Americans test an atomic bomb, allegedly for the first time in the world. And at the beginning of August two bombs are dropped on Japanese cities. Hans Ulrich von Kranz noticed these coincidences.

The researcher also has doubts because only a month passed between the testing and combat use of the new superweapon, since manufacturing a nuclear bomb is impossible in such a short time! After Hiroshima and Nagasaki, the next US bombs did not enter service until 1947, preceded by additional tests in El Paso in 1946. This suggests that we are dealing with a carefully hidden truth, since it turns out that in 1945 the Americans dropped three bombs - and all were successful. The next tests - of the same bombs - take place a year and a half later, and not very successfully (three out of four bombs did not explode). Serial production began another six months later, and it is unknown to what extent the atomic bombs that appeared in American army warehouses corresponded to their terrible purpose. This led the researcher to the idea that “the first three atomic bombs - the same ones from 1945 - were not built by the Americans on their own, but received from someone. To put it bluntly - from the Germans. This hypothesis is indirectly confirmed by the reaction of German scientists to the bombing of Japanese cities, which we know about thanks to David Irving’s book.” According to the researcher, the atomic project of the Third Reich was controlled by the Ahnenerbe, which was under the personal subordination of SS leader Heinrich Himmler. According to Hans Ulrich von Kranz, “a nuclear charge is the best instrument of post-war genocide, both Hitler and Himmler believed.” According to the researcher, on March 3, 1944, an atomic bomb (Object “Loki”) was delivered to the test site - in the swampy forests of Belarus. The tests were successful and aroused unprecedented enthusiasm among the leadership of the Third Reich. German propaganda had previously mentioned a “miracle weapon” of gigantic destructive power that the Wehrmacht would soon receive, but now these motives sounded even louder. They are usually considered a bluff, but can we definitely draw such a conclusion? As a rule, Nazi propaganda did not bluff, it only embellished reality. It has not yet been possible to convict her of a major lie on the issue of “miracle weapons.” Let us remember that propaganda promised jet fighters - the fastest in the world. And already at the end of 1944, hundreds of Messerschmitt-262s patrolled the airspace of the Reich. Propaganda promised a rain of missiles for the enemies, and since the autumn of that year, dozens of V-cruise missiles rained down on English cities every day. So why on earth should the promised super-destructive weapon be considered a bluff?

In the spring of 1944, feverish preparations began for the serial production of nuclear weapons. But why weren't these bombs used? Von Kranz gives this answer - there was no carrier, and when the Junkers-390 transport plane appeared, betrayal awaited the Reich, and besides, these bombs could no longer decide the outcome of the war...

How plausible is this version? Were the Germans really the first to develop the atomic bomb? It’s difficult to say, but this possibility should not be ruled out, because, as we know, it was German specialists who were leaders in atomic research back in the early 1940s.

Despite the fact that many historians are engaged in researching the secrets of the Third Reich, because many secret documents have become available, it seems that even today the archives with materials about German military developments reliably store many mysteries.

author

From the book The Newest Book of Facts. Volume 3 [Physics, chemistry and technology. History and archaeology. Miscellaneous] author Kondrashov Anatoly Pavlovich

From the book The Newest Book of Facts. Volume 3 [Physics, chemistry and technology. History and archaeology. Miscellaneous] author Kondrashov Anatoly Pavlovich

From the book The Newest Book of Facts. Volume 3 [Physics, chemistry and technology. History and archaeology. Miscellaneous] author Kondrashov Anatoly Pavlovich

From the book The Newest Book of Facts. Volume 3 [Physics, chemistry and technology. History and archaeology. Miscellaneous] author Kondrashov Anatoly Pavlovich

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