Edward Teller
2007 Schools Wikipedia Selection. Related subjects: Astronomers and physicists
Edward Teller in 1958 as Director of the Lawrence Livermore National Laboratory. |
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Born | 15 January 1908 Budapest, Austria-Hungary |
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Died | 9 September 2003 Stanford, California |
Residence | USA |
Nationality | Hungarian American |
Institution | University of Göttingen Bohr Institute George Washington University Manhattan Project University of Chicago UC Berkeley Lawrence Livermore Hoover Institution |
Alma Mater | University of Karlsruhe University of Leipzig |
Doctoral Advisor | Werner Heisenberg |
Doctoral Students | Chen Ning Yang Lincoln Wolfenstein |
Known for | Jahn-Teller effect Hydrogen bomb development |
Religion | Jewish |
Edward Teller (original Hungarian name Teller Ede) ( January 15, 1908 – September 9, 2003) was a Hungarian-born American theoretical physicist, known colloquially as "the father of the hydrogen bomb."
Of Jewish descent, Teller immigrated to the United States in the 1930s, and was an early member of the Manhattan Project charged with developing the first atomic bombs. During this time he made a serious push to develop the first fusion-based weapons as well, but these were deferred until after World War II. After his controversial testimony in the security clearance hearing of his former Los Alamos colleague Robert Oppenheimer, Teller became ostracized from much of the scientific community. He continued to find support from the U.S. government and military research establishment. He was a co-founder of Lawrence Livermore National Laboratory, and was both its director and associate director for many years.
In his later years he became especially known for his advocacy of controversial technological solutions to both military and civilian problems, including a plan to excavate an artificial harbour in Alaska using thermonuclear explosives. He was a prominent advocate of Ronald Reagan's Strategic Defense Initiative, and he was later accused of over-selling the technical feasibility of the program. Over the course of his long life, Teller was known both for his scientific ability and his difficult interpersonal relations and volatile personality, and is considered one of the key influences on the character Dr. Strangelove in the 1964 movie of the same name.
Early life and education
Teller was born in Budapest, Austria-Hungary to a Jewish family. As a child, he was slow to speak, and his grandfather warned that he might be retarded. However, when he spoke, he did so in complete sentences. He left Hungary in 1926 (partly due to the Numerus clausus rule under Horthy's regime) and received his higher education in Germany. The political climate and revolutions in Hungary during his youth instilled a deep hatred for both Communism and Fascism in Teller. When he was a young student, his leg was severed in a streetcar accident in Munich, requiring him to wear a prosthetic foot and leaving him with a life-long limp. Teller graduated in chemical engineering at the University of Karlsruhe and received his Ph.D. in physics under Werner Heisenberg in 1930 at the University of Leipzig. Teller's Ph.D. dissertation dealt with one of the first accurate quantum mechanical treatments of the hydrogen molecular ion. In 1930 he befriended young Russian physicists George Gamow and Lev Landau, who then visited Western Europe.
He spent two years at the University of Göttingen and left Germany in 1933 through the aid of the Jewish Rescue Committee. He went briefly to England and moved for a year to Copenhagen, where he worked under Niels Bohr. In February 1934, he married "Mici" (Augusta Maria) Harkanyi, the sister of a longtime friend.
In 1935, thanks to George Gamow's incentive, Teller was invited to the United States to become a Professor of Physics at the George Washington University, where he worked with Gamow until 1941. Prior to the discovery of fission in 1939, Teller was engaged as a theoretical physicist working in the fields of quantum, molecular, and nuclear physics. In 1941, after becoming a naturalized citizen of the United States, his interest turned to the use of nuclear energy, both fusion and fission.
Perhaps Teller's most important contribution to science was the elucidation of the Jahn-Teller Effect (1939) which describes the geometrical distortion that electron clouds undergo in certain situations; this plays prominently in the description of chemical reactions of metals, and in particular the coloration of certain metallic dyes. In collaboration with Brunauer and Emmet, Teller also made an important contribution to surface physics and chemistry; the so-called Brunauer-Emmett-Teller (BET) isotherm.
When World War II began, Teller wanted to contribute to the war effort. On the advice of the well-known Caltech aerodynamicist and fellow Hungarian émigré Theodore von Kármán, Teller collaborated with his friend Hans Bethe in developing a theory of shock-wave propagation. In later years, their explanation of the behaviour of the gas behind such a wave proved valuable to scientists who were studying missile re-entry.
Work on the Manhattan Project
In 1942, Teller was invited to be part of Robert Oppenheimer's summer planning seminar at UC Berkeley for the origins of the Manhattan Project, the Allied effort to develop the first nuclear weapons. A few weeks earlier, Teller had been meeting with his friend and colleague Enrico Fermi about the prospects of atomic warfare, and Fermi had nonchalantly suggested that perhaps a weapon based on nuclear fission could be used to set off an even larger nuclear fusion reaction. Even though he initially quickly explained to Fermi why he thought the idea wouldn't work, Teller was fascinated by the possibility and was quickly bored with the idea of "just" an atomic bomb (which was not yet anywhere near completion). At the Berkeley session, Teller diverted discussion from the fission weapon to the possibility of a fusion weapon—what he called the "Super" (an early version of what was later known as a hydrogen bomb). (Rhodes 1995; Herken 2002)
Teller became part of the Theoretical Physics division at the then-secret Los Alamos laboratory during the war, and continued to push his ideas for a fusion weapon even though it had been put on a low priority during the war (as the creation of a fission weapon was proving to be difficult enough by itself). Because of his interest in the H-bomb, and his frustration at having been passed over for director of the theoretical division (the job was instead given to Hans Bethe), Teller refused to engage in the calculations for the implosion of the fission bomb. This caused tensions with other researchers, as additional scientists had to be employed to do that work—including Klaus Fuchs, who later was revealed to be a Soviet spy. (Herken 2002) Apparently, Teller also managed to irk his neighbors by playing the piano late in the night. However, Teller made some valuable contributions to bomb research, especially in the elucidation of the implosion mechanism.
In 1946, Teller participated in a conference in which the properties of thermonuclear fuels such as deuterium and the possible design of a hydrogen bomb was discussed. It was concluded that Teller's assessment of a hydrogen bomb had been too favourable, and that both the quantity of deuterium needed, as well as the radiation losses during deuterium burning, would shed doubt on its workability. Addition of expensive tritium to the thermonuclear mixture would likely lower its ignition temperature, but even so, nobody knew at that time how much tritium would be needed, and whether even tritium addition would encourage heat propagation. At the end of the conference, in spite of opposition by some members such as Robert Serber, Teller submitted an optimistic report in which he said that a hydrogen bomb was feasible, and that further work should be encouraged on its development. Klaus Fuchs had also participated in this conference, and transmitted this information to Moscow. The model of Teller's 'classical Super' was so uncertain, that Oppenheimer would later say that he wished the Russians were building their own hydrogen bomb based on that design, so that it would almost certainly retard their progress on it. In 1946, Teller left Los Alamos to return to the University of Chicago.
The hydrogen bomb
Following the Soviet Union's first test detonation of an atomic bomb in 1949, President Truman announced a crash development program for a hydrogen bomb. Teller returned to Los Alamos in 1950 to work on the project. Teller quickly grew impatient with the progress of the program, insisted on involving more theorists, and accused his colleagues of lacking imagination. This worsened his relations with other researchers. None of his designs (or anyone else's), however, were yet workable. Bethe thought that had Teller not pressed for an early H-bomb test, the Russians' own development might possibly have been slowed down, particularly as the information which Klaus Fuchs gave them contained many incorrect technical details which rendered a workable H-bomb unfeasible. Russian scientists who had worked on the Soviet hydrogen bomb have claimed that they could see that the early ideas were infeasible as well as anyone else who had looked at them did, and also claimed that they developed their H-bomb wholly independently.
In 1950, calculations by the Polish mathematician Stanislaw Ulam and his collaborator Cornelius Everett, along with confirmations by Fermi, had shown that not only was Teller's earlier estimate of the quantity of tritium needed for the H-bomb a low one, but that even with a higher amount of tritium, the energy losses in the fusion process would be too great to enable the fusion reaction to propagate. However, in 1951, after still many years of fruitless labor on the "Super," an innovative idea from Ulam was seized upon by Teller and developed into the first workable design for a megaton-range hydrogen bomb. The exact contribution provided respectively from Ulam and Teller to what became known as the Teller-Ulam design is not definitively known in the public domain—the degree of credit assigned to Teller by his contemporaries is almost exactly commensurate with how well they thought of Teller generally. In an interview with Scientific American from 1999, Teller told the reporter:
- "I contributed; Ulam did not. I'm sorry I had to answer it in this abrupt way. Ulam was rightly dissatisfied with an old approach. He came to me with a part of an idea which I already had worked out and difficulty getting people to listen to. He was willing to sign a paper. When it then came to defending that paper and really putting work into it, he refused. He said, 'I don't believe in it.'"
The issue is controversial. Bethe spoke of Teller’s "stroke of genius" in the invention of the H-bomb as early as 1954. As late as 1997 Bethe repeated his view that “the crucial invention was made in 1951, by Teller.” Other scientists (antagonistic to Teller, such as J. Carson Mark) have claimed that Teller would have never gotten any closer without the assistance of Ulam and others.
The breakthrough — the details of which are still classified — was apparently the separation of the fission and fusion components of the weapons, and to use the radiation produced by the fission bomb to first compress the fusion fuel before igniting it. However, compression alone would not have been enough and the other crucial idea — staging the bomb by separating the primary and secondary — seems to have been exclusively contributed by Ulam. Also, Ulam's idea seems to have been to use mechanical shock from the primary to encourage fusion in the secondary, while Teller quickly realised that radiation from the primary would do the job much earlier and more efficiently. Some members of the laboratory (J. Carson Mark in particular) later expressed that the idea to use the radiation would have eventually occurred to anyone working on the physical processes involved, and that the obvious reason why Teller thought of radiation right away was because he was already working on the " Greenhouse" tests for the spring of 1951, in which the effect of the energy from a fission bomb on a mixture of deuterium and tritium was going to be investigated. (Rhodes 1995)
Whatever the actual components of the so-called Teller-Ulam design and the respective contributions of those who worked on it, after it was proposed it was immediately seen by the scientists working on the project as the answer which had been so long sought. Those who previously had doubted whether a fission-fusion bomb would be feasible at all were converted into believing that it was only a matter of time before both the USA and the USSR had developed multi-megaton weapons. Even Oppenheimer, who was originally opposed to the project, called the idea "technically sweet."
Though he had helped to come up with the design and had been a long-time proponent of the concept, Teller was not chosen to head the development project (his reputation of a thorny personality likely played a role in this). In 1952 he left Los Alamos and joined the newly established Livermore branch of the University of California Radiation Laboratory, which had been created largely through his urging. After the detonation of " Ivy Mike", the first thermonuclear weapon to utilize the Teller-Ulam configuration, on November 1, 1952, Teller became known in the press as the "father of the hydrogen bomb." Teller himself refrained from attending the test — he claimed not to feel welcome at the Pacific Proving Grounds — and instead saw its results on a seismograph in the basement of a hall in Berkeley. (Rhodes 1995)
By analyzing the fallout from this test, the Soviets (led in their H-bomb work by Soviet scientist Andrei Sakharov) could have easily deduced that the new design had used compression as the key initiator. However this was later denied by the Soviet bomb researchers, who later claimed that they were not yet at that time organized to collect fallout data from U.S. tests. Because of official secrecy, little information about the bomb's development was released by the government, and press reports often attributed the entire weapon's design and development to Teller and his new Livermore Laboratory (when it was actually developed by Los Alamos).
Many of Teller's colleagues were irritated that he seemed to enjoy taking full credit for something he had only a part in, and in response, with encouragement from Enrico Fermi, Teller authored an article titled "The Work of Many People," which appeared in Science magazine in February 1955, emphasizing that he was not alone in the weapon's development (he would later write in his memoirs that he had told a "white lie" in the 1955 article in order to "soothe ruffled feelings", claimed full credit for the invention).
Teller was often known for getting engrossed in projects which were theoretically interesting but practically unfeasible (the classic "Super" was one such project.) About his work on the hydrogen bomb, Bethe said:
- "Nobody blamed Teller because the calculations of 1946 were wrong, especially because adequate computing machines were not available at Los Alamos. But he was blamed at Los Alamos for leading the laboratory, and indeed the whole country, into an adventurous programme on the basis of calculations, which he himself must have known to have been very incomplete."
During the Manhattan Project, Teller also advocated for the development of a bomb using uranium hydride, which many of his fellow theorists said would be unlikely to work. At Livermore, Teller continued work on the hydride bomb, and the result was a dud. Ulam once wrote to a colleague about an idea he had shared with Teller: "Edward is full of enthusiasm about these possibilities; this is perhaps an indication they will not work." Fermi once said that Teller was the only monomaniac he knew who had several manias.
The Oppenheimer controversy
The rift between Teller and many of his colleagues was widened in 1954 when he testified against Robert Oppenheimer, former head of Los Alamos and member of the Atomic Energy Commission, at Oppenheimer's security clearance hearing. Teller had clashed with Oppenheimer many times at Los Alamos over issues relating both to fission and fusion research, and during Oppenheimer's trial he was the only member of the scientific community to label Oppenheimer a security risk.
Asked at the hearing by prosecutor Roger Robb whether he was planning "to suggest that Dr. Oppenheimer is disloyal to the United States," Teller replied that:
- I do not want to suggest anything of the kind. I know Oppenheimer as an intellectually most alert and a very complicated person, and I think it would be presumptuous and wrong on my part if I would try in any way to analyze his motives. But I have always assumed, and I now assume that he is loyal to the United States. I believe this, and I shall believe it until I see very conclusive proof to the opposite.
However, he was immediately asked whether he believed that Oppenheimer was a "security risk," to which he testified:
- In a great number of cases I have seen Dr. Oppenheimer act — I understood that Dr. Oppenheimer acted — in a way which for me was exceedingly hard to understand. I thoroughly disagreed with him in numerous issues and his actions frankly appeared to me confused and complicated. To this extent I feel that I would like to see the vital interests of this country in hands which I understand better, and therefore trust more. In this very limited sense I would like to express a feeling that I would feel personally more secure if public matters would rest in other hands.
Teller also testified that Oppenheimer's opinion about the thermonuclear program seemed to be based more on the scientific feasibility of the weapon than anything else. He additionally testified that Oppenheimer's direction of Los Alamos was "a very outstanding achievement" both as a scientist and an administrator, lauding his "very quick mind" and that he made "just a most wonderful and excellent director."
After this, however, he detailed ways in which he felt that Oppenheimer had hindered his efforts towards an active thermonuclear development program, and at length criticized Oppenheimer's decisions not to invest more work onto the question at different points in his career. The most damning piece of testimony, as seen by contemporaries and later historians, was his statement that:
- If it is a question of wisdom and judgment, as demonstrated by actions since 1945, then I would say one would be wiser not to grant clearance.
Oppenheimer's security clearance was eventually stripped, and Teller was treated as a pariah by many of his former colleagues. In response, Teller began to run with a more military and governmental crowd, becoming the scientific darling of conservative politicians and thinkers for his advocacy of American scientific and technological supremacy. After the fact, Teller consistently denied that he was intending to damn Oppenheimer, and even claimed that he was attempting to exonerate him. Documentary evidence has suggested that this was likely not the case, however. Six days before the testimony, Teller met with an AEC liaison officer and suggested "deepening the charges" in his testimony.
Government work and political advocacy
Teller was Director of the Lawrence Livermore National Laboratory ( 1958- 1960), which he helped to found (along with Ernest O. Lawrence), and after that he continued as an Associate Director. He also served concurrently as a Professor of Physics at the University of California, Berkeley. He was a tireless advocate of a strong nuclear program and argued for continued testing and development — in fact, he stepped down from the directorship of Livermore so that he could better lobby against the proposed test ban. He testified against the test ban both before Congress as well as on television.
After the Oppenheimer controversy, Teller became ostracized by much of the academic scientific community. He was however still quite welcome in the government and military science circles. Along with his traditional advocacy for nuclear energy development, a strong nuclear arsenal, and a vigorous nuclear testing program, he also helped to develop nuclear reactor safety standards and helped to design reactors in which a nuclear meltdown would be hypothetically impossible.
In 1975 he retired from both the lab and Berkeley, and was named Director Emeritus of the Livermore Laboratory and appointed Senior Research Fellow at the Hoover Institution.
Teller was also associated with the Council for National Policy, a semi-secret right-wing think-tank. He served on the Council's board of directors in 1982.
Operation Plowshare and Project Chariot
Teller was one of the strongest and best-known advocates for investigating non-military uses of nuclear explosives, known as Operation Plowshare. One of the most controversial projects he proposed was a plan to use a multi-megaton hydrogen bomb to dig a deep-water harbour more than a mile long and half a mile wide to use for shipment of resources from coal and oil fields near Point Hope, Alaska. The Atomic Energy Commission accepted Teller's proposal in 1958 and it was designated Project Chariot. While the AEC was scouting out the Alaskan site, and having withdrawn the land from the public domain, Teller publicly advocated the economic benefits of the plan, but was unable to convince local government leaders that the plan was financially viable. (O'Neill 1994)
Other scientists criticized the project as being potentially unsafe for the local wildlife and the Inupiat people living near the designated area, who were not officially told of the plan until 1960. Additionally, it turned out that the harbour would be ice-bound for nine months out of the year. In the end, due to the financial infeasibility of the project and the concerns over radiation-related health issues, the project was cancelled in 1962.
A related experiment which also had Teller's endorsement was a plan to extract oil from the Athabasca oil sands in northern Alberta with nuclear explosions. The plan actually received the endorsement of the Alberta government, but was rejected by the Government of Canada under Prime Minister John Diefenbaker. In addition to being opposed to having nuclear weapons in Canada, Diefenbaker was concerned that such a project would intensify Soviet espionage in Northern Canada.
Three Mile Island
Teller suffered a heart attack in 1979, which he blamed on Jane Fonda; after the Three Mile Island accident, the actress had outspokenly lobbied against nuclear power while promoting her latest movie, The China Syndrome (a movie depicting a nuclear accident which had coincidentally been released only a little over a week before the actual incident.) In response, Teller acted quickly to lobby in favour of nuclear energy, testifying to its safety and reliability, and after such a flurry of activity suffered the attack. Teller authored a two-page spread in the Wall Street Journal which appeared on July 31, 1979, under the headline "I was the only victim of Three-Mile Island", which opened with:
- "On May 7, a few weeks after the accident at Three-Mile Island, I was in Washington. I was there to refute some of that propaganda that Ralph Nader, Jane Fonda and their kind are spewing to the news media in their attempt to frighten people away from nuclear power. I am 71 years old, and I was working 20 hours a day. The strain was too much. The next day, I suffered a heart attack. You might say that I was the only one whose health was affected by that reactor near Harrisburg. No, that would be wrong. It was not the reactor. It was Jane Fonda. Reactors are not dangerous."
The next day, The New York Times ran an editorial criticizing the ad, noting that it was sponsored by Dresser Industries, the firm which had manufactured one of the defective valves which contributed to the Three Mile Island accident. (Broad 1992)
Strategic Defense Initiative
In the 1980s, Teller began a strong campaign for what was later called the Strategic Defense Initiative (SDI), derided by critics as "Star Wars," the concept of using lasers or satellites to destroy incoming Russian ICBMs. Teller lobbied with government agencies—and got the sanction of President Ronald Reagan—for his plan to develop a system using elaborate satellites which used atomic weapons to fire X-ray lasers at incoming missiles— as part of a broader scientific research program into defenses against nuclear weapons. However, scandal erupted when Teller (and his associate Lowell Wood) were accused of deliberately overselling the program and perhaps had encouraged the dismissal of a laboratory director (Roy Woodruff) who had attempted to correct the error. (Broad 1992) His claims led to a joke which circulated in the scientific community, that a new unit of unfounded optimism was designated as the teller; one teller was so large that most events had to be measured in nanotellers or picotellers. Many prominent scientists argued that the system was futile. Bethe, along with IBM physicist Richard Garwin and Cornell University colleague Kurt Gottfried, wrote an article in Scientific American which analyzed the system and concluded that any putative enemy could disable such a system by the use of suitable decoys. The project's funding was eventually scaled back.
Many scientists opposed strategic defense on moral or political rather than purely technical grounds. They argued that, even if an effective system could be produced, it would undermine the system of Mutually Assured Destruction (MAD) that had prevented all-out war between the western democracies and the communist bloc. An effective defense, they contended, would make such a war "winnable" and therefore more likely.
The concept experienced a revival in the late 90's and early part of the twenty-first century, though. This was partially due to advancing technology, but mostly to the changing nature of the nuclear strategic environment. Instead of a stand-off between thousands of weapons deployed by two well-funded and highly advanced superpowers, the world had transitioned to a multi-polar world where many nations of varying wealth and political stability, deployed small numbers of nuclear weapons. In this context, nations able to afford only a handful of ICBM— or even one— could pose a major threat to the US. Furthermore, in the hands of political or religious extremists, the counterthreat of nuclear annihilation was perceived as less likely to deter potential attackers. Teller's plan offered a way to increase the risk for emerging nuclear powers contemplating a first-strike, while forcing nations with more economic and technological might to enter a costly arms race between defense and countermeasure. Under US President Bush, the missile defense program experienced a revitalization, and the US withdrew from the Anti-ballistic Missile Treaty to pursue defenses against nuclear weapons.
Despite (or perhaps because of) his hawkish reputation, Teller made a public point of noting that he regretted the use of the first atomic bombs on civilian cities during World War II. He further claimed that before the bombing of Hiroshima he had indeed lobbied Oppenheimer to use the weapons first in a "demonstration" which could be witnessed by the Japanese high-command and citizenry before using them to incur thousands of deaths. The "father of the hydrogen bomb" would use this quasi-anti-nuclear stance (he would say that he believed nuclear weapons to be unfortunate, but that the arms race was unavoidable due to the intractable nature of Communism) to promote technologies such as SDI, arguing that they were needed to make sure that nuclear weapons could never be used again (Better a shield than a sword was the title of one of his books on the subject).
However, there is contradictory evidence. In the seventies of the twentieth century a letter of Teller to Szilard emerged, dated on July 2nd, 1945:
"Our only hope is in getting the facts of our results before the people. This might help convince everybody the next war would be fatal. For this purpose, actual combat-use might even be the best thing."
Professor Barton Bernstein from Stanford University pointed out that Tellers claims are therefore very unconvicing.
Legacy
In his early career, Teller made many important contributions to nuclear and molecular physics, spectroscopy (the Jahn-Teller and Renner-Teller effects), and surface physics. His extension of Fermi's theory of beta decay (in the form of the so-called Gamow-Teller transitions) provided an important stepping stone in the applications of this theory. The Jahn-Teller effect and the BET theory have retained their original formulation and are still mainstays in physics and chemistry. Teller also made contributions to Thomas-Fermi theory, the precursor of density functional theory, a standard modern tool in the quantum mechanical treatment of complex molecules. In 1953, along with Nicholas Metropolis and Marshall Rosenbluth, Teller co-authored a paper which is a standard starting point for the applications of the Monte Carlo method to statistical mechanics.
Teller's vigorous advocacy for strength through nuclear weapons, especially when so many of his wartime colleagues later expressed regret about the arms race, made him an easy target for the " mad scientist" stereotype (his accent and imposing eyebrows certainly did not help shake the image). In 1991 he was awarded one of the first Ig Nobel Prizes for Peace in recognition of his "lifelong efforts to change the meaning of peace as we know it". He was also rumored to be one of the inspirations for the character of Dr. Strangelove in Stanley Kubrick's 1964 satirical film of the same name (other inspirations have been speculated to be RAND theorist Herman Kahn, rocket scientist Wernher von Braun, and Secretary of Defense Robert McNamara). In the aforementioned Scientific American interview from 1999, he was reported as having bristled at the question: "My name is not Strangelove. I don't know about Strangelove. I'm not interested in Strangelove. What else can I say?... Look. Say it three times more, and I throw you out of this office." Nobel Prize winning physicist Isidor I. Rabi once suggested that "It would have been a better world without Teller."
Although he left Hungary decades ago, Teller never forgot his heritage or his language. After the fall of communism in Hungary in 1989, he made several visits to his country of origin, and paid careful attention to the political changes there.
Teller died in Stanford, California on September 9, 2003. He was a fellow of the American Academy of Arts and Sciences, the American Association for the Advancement of Science, and the American Nuclear Society. Among the honours he received were the Albert Einstein Award, the Enrico Fermi Award, and the National Medal of Science. He was also named as part of the group of "U.S. Scientists" who were Time magazine's People of the Year in 1960, and an asteroid, 5006 Teller, is named after him. He was awarded with the Presidential Medal of Freedom by President George W. Bush less than two months before his death.