John G. Trump | |
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 MIT faculty portrait (1954) | |
| Born | John George Trump (1907-08-21)August 21, 1907 New York City, U.S. |
| Died | February 21, 1985(1985-02-21) (aged 77) Cambridge, Massachusetts, U.S. |
| Education | Polytechnic Institute of Brooklyn (BS) Columbia University (MS, Physics) MIT (ScD, Elec. Eng.) |
| Occupations | Professor, electrical engineer |
| Employer | MIT |
| Known for | Van de Graaff generator Electron beam sterilization of wastewater[4][5][failed verification] |
| Spouse | Elora Sauerbrun |
| Children | 3 |
| Parents |
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| Relatives | Trump family |
| Awards | King's Medal for Service(1947) President's Certificate(1948) Lamme Medal(1960) National Medal of Science(1983) |
| Scientific career | |
| Fields |
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| Institutions | MIT |
| Thesis | Vacuum electrostatic engineering (1933) |
| Doctoral advisor | Robert J. Van de Graaff |
| Doctoral students | Ge-Yao Chu Elias Gyftopoulos Henry C. Bourne, Jr.[1] |
| Other notable students | Jay W. Forrester (BS)[2] Louis Smullin (MS)[3] Mac Van Valkenburg (MS) |
| Signature | |
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John George Trump (August 21, 1907 – February 21, 1985) was an Americanelectrical engineer and professor atMIT. He pioneered the use of high-voltage generators in cancer treatment, directed American radar operations in Europe during World War II, and was founding chairman ofHigh Voltage Engineering Corporation, a manufacturer ofparticle accelerators. He was the paternal uncle ofPresident Donald Trump.
Trump earned his PhD in 1933 asRobert Van de Graaff's first student, working on the insulation ofelectrostatic generators. He joined MIT's faculty in 1935 and first applied these generators tocancer radiotherapy, designing compact X-ray machines for hospitals. Trump directed the High Voltage Research Laboratory from 1946 to 1980, which developed new radiotherapy techniques, oversaw treatment of 10,000 patients, and taught hundreds of radiologists. His lab broadly explored the generation and use of electrostatic power in medical sterilization,spacecraft propulsion,wastewater disinfection, andpower transmission.
In October 1940, Trump joinedVannevar Bush's newNational Defense Research Committee as a technical aide and helped establish theRadiation Laboratory at MIT, one of the war's largest research and development programs. He served on the lab's steering committee and administered its government contracts for radar research. From February 1944 until the capture of Berlin, he directed the Rad Lab'sfield operation in Europe, organizing radar deployments for theD-Day invasion, workingV-1 rocket interception, and advising American commanders on radar use in combat. He received service commendations fromPresident Truman andKing George VI.
In 1946, Trump co-founded theHigh Voltage Engineering Corporation (HVEC) with Van de Graaff andDenis Robinson. HVEC was one of the first two startups backed by theAmerican Research & Development Corporation, the first modern venture capital firm. As founding chairman, Trump oversaw the company's growth and listing on theNew York Stock Exchange. Originally building compactaccelerators for cancer clinics, HVEC became the dominant supplier of research particle accelerators as government funding for nuclear physics expanded. After stepping down as chairman in 1970, Trump offered technical advice as the company diversified into industrial products. Many of HVEC's 1960s-era research accelerators remain in use at physics laboratories worldwide.
After retiring from the MIT faculty, Trump oversaw the installation of Van de Graaff'soriginal high-voltage generator at theBoston Museum of Science, where he was a museum trustee. He also served as board chairman of theLahey Clinic, a Boston area cancer hospital.President Reagan awarded Trump theNational Medal of Science in 1983 for the "beneficial application of ionizing radiation to medicine, industry and atomic physics."
Born in theBronx,New York City, on August 21, 1907, John Trump was the youngest of three children born to German immigrantsFrederick andElizabeth Christ Trump. When theQueensboro Bridge was finished in 1910, the family moved toQueens, eventually settling in theWoodhaven neighborhood.[6] When Trump was 11, his father died in the1918 influenza pandemic, leaving his mother to support the family.[7]
Like his siblings, Trump attendedRichmond Hill High School, where he was a gifted student.[6] He joinedWestern Electric's Manhattan engineering office in 1923, two years before it became known asBell Labs.[6]
Both John Trump and his older brotherFred joinedtheir family's real estate firm. Their mother hoped that Fred would build homes and John design them.[6] With support from his brother, John enrolled atBrooklyn Polytechnic Institute to study architecture.[6] The brothers' work together ended due to differences in business philosophy: Fred preferred to sell units as they were planned; John thought they should only sell once constructed.[6] By the end of his freshman year, John left the family real estate business and switched his concentration from architecture to engineering.[6]
Selected as Brooklyn Poly's valedictorian, Trump graduated from in 1929 with abachelor's degree in electrical engineering.[8] While teaching electrical engineering at hisalma mater, he earned hismaster's degree inphysics fromColumbia University in 1931.[9][10]
In fall 1931, Trump arrived at theMassachusetts Institute of Technology (MIT) to pursue a PhD in electrical engineering. MIT's new president, the physicistKarl T. Compton, was recruiting scientists to strengthen basic research at the institute.[11]Vannevar Bush, dean of MIT's engineering school, recommended Trump work with one of these recruits: Robert J. Van de Graaff, a 29-year-old physicist developinga new electrostatic generator.[12] Van de Graaff became Trump's advisor and lifelong collaborator.
Van de Graaff sought to build a model with sufficientlystrong insulation to reach ten megavolts andartificially split the atom.[12] He split his research between open-air models, which required large terminals, and vacuum-insulated designs, which were compact but technically challenging. Van de Graaff demonstrated theRound Hill generator, a 43-foot (13 m) air-insulated generator that produced dramaticelectrical arcs and attracted broad press coverage.[13][14] But the demonstration also revealed the design's fundamental limitation: high voltages broke down in open air.
To overcome these limits, Trump worked on vacuum techniques. He designed asynchronousalternating-current motor to power a vacuum, which proved highly efficient.[12] Encouraged by this practical innovation, his dissertation also proposed a method to build vacuum-insulated, long-distance transmission lines forhigh-voltage direct current.[12] In 1932, Van de Graaff filed to patent components in the transmission system.[15] The newTennessee Valley Authority showed interest in developing these patents for its hydropower projects, and Vannevar Bush offered to license them to the TVA by assigning them to theResearch Corporation.[15] Though the transmission project fell through, MIT became the first private university with a policy of research commercialization, and its arrangement was an influential predecessor touniversity patent licensing.[15]
Trump received his doctorate of electrical engineering in 1933.[12] His thesis,Vacuum Electrostatic Engineering, described these contributions and examined the factors governingvoltage-insulation strength in vacuums.[16]
After graduating, Trump remained at MIT as a research associate, then became an assistant professor in 1936.[17] His research focused on improving high-voltage generators and finding new uses for them in industry.[18]
While writing his thesis, Trump had learned about an MIT lecture onmedical uses of high-voltage x-rays.[19] At the time, low-voltage radiotherapy techniques could only target superficial tissues and required long exposures that damaged skin.[20] Because Van de Graaff sources produced steady, controllable, power that other high-voltage sources could not, Trump hypothesized that they could produce penetrating, precise x-rays that could target deeper tumors.[12]
In May 1935, Trump showed that striking a gold target with the Van de Graaff electron beam produced abundant x-rays.[21] The Godfrey M. Hyams Trust funded the construction of a 1-MV generator for Harvard'sHuntington Memorial Hospital, which entered service in March 1937.[9][21][22][20] The first of several hospital generators Trump would build, it required a room-sized voltage terminal with an internal focusing coil suspended over the patient in the room below.[21] Though just one-third the height of the Round Hill generator, its operators saw it as "magnificent monster."[21] Radiologist reported that it provided "increased depth dosages, greater skin sparing, and greater intensity" than radium exposure, then the prevailing technique.[23] The first patient treated by the Huntington machine survived beyond four years.[22][20] However, Huntington Hospital survived only another four years, and the machine was shut down in 1941.[23]
Trump focused his research on making hospital generators smaller and more controllable. He adopted a pressurized gas (SF6) system developed byRaymond Herb, which allowed him to increase dielectric strength at a smaller size. He built a compact 1.25-MV generator forMassachusetts General Hospital in 1940, which treated patients for sixteen years.[10][20] He built another generator for the Philadelphia Oncologic Hospital. Trump's pre-war generator installations have been acknowledged as precursors to the field ofradiosurgery.[24]
Trump's gas-insulated generator would find other commercial applications. With World War II engulfing Europe and Asia, the United States began expanding its military fleet production. With engineers atBoston Navy Yard, Trump discovered that his high-voltage x-ray generator could detect manufacturing defects in ships and aircraft.[9] Robert Van de Graaff would carry this work forward through MIT's High Voltage Radiographic Project, a Navy-funded effort to build Van de Graaff generators to find ship manufacturing defects.
DuringWorld War II, Trump interrupted his research on x-ray therapy to work on military uses ofmicrowaveradar. In early 1940,Vannevar Bush organized theNational Defense Research Committee (NDRC) to direct the White House's wartime research strategy. Trump joined the NDRC as technical aide to MIT presidentKarl Compton, who chaired the committee's radar and detection section (Division D).[10][25]
In October 1940,British scientists demonstrated secretmicrowave transmitters to the United States, offering dramatic improvements in radar resolution and range. NDRC members pressed Compton to organize a research effort at MIT. On October 24, Trump attended the preliminary space and planning conference in Compton's office alongsideAlfred Loomis,Lee DuBridge, and NDRC secretaryEdward L. Bowles.[26] The group identified laboratory space, and within a week submitted a funding proposal to the NDRC. On November 11, the newly christenedRadiation Laboratory held its first personnel meeting. By mid-December, about 30 physicists had arrived and begun work in hastily converted space in MIT Room 4-133.[27]
The Rad Lab spent its first year focused on conceptual radar research. As Compton's NDRC aide, Trump oversaw the lab's federal contract with the NDRC.[28] Theattack on Pearl Harbor pushed the lab into radar equipment production, and its rapid expansion pulled Trump deeper into its business operations. In March 1942, the lab adopted a new divisional organization, and directorLee DuBridge appointed Trump to its Steering Committee, the body that set research priorities and approved projects.[29] The next month, Trump succeeded Bowles as secretary of the Microwave Committee, the NDRC body supervising all government radar research contracts.[28] Trump combined this role with his existing responsibilities as NDRC representative at the Rad Lab.[28] By 1942, Trump's NDRC office had grown to five staff members and five secretaries, and became what Guerlac described as "a very important administrative unit in the radar program."[28] In December 1942, the Microwave Committee became Division 14 (Radar) under an NDRC reorganization. Trump's office continued its oversight role, handling contract supervision and policy while granting the Rad Lab wide operational freedom.[30]
During Trump's tenure in the Rad Lab's top administration, it grew into the war's largest civilian research contractor. At its peak, the lab employed 3,879 personnel, constructed three buildings on the MIT campus, opened field operations around the world, and fulfilled $110,758,000 in government research contracts—roughly 80 percent of the United States' radar research budget.[31] The lab introduced capabilities includingearly warning systems,gun-laying fire control, andbombing through cloud cover, giving American forces a growing technological advantage.[32]
Following the death ofNikola Tesla in January 1943, the U.S.Office of Alien Property Custodian requested Trump's support to examine the notes, papers, and artifacts left by the inventor.[33] Tesla had offered the U.S. Army a license to unspecified secret weapons, and officials believed his belongings might contain designs for a promised high-voltage "death ray." Tesla had bequeathed the items to his nephew, a Yugoslavian government official.[33] OAPC was reluctant to send them to a Nazi-occupied country without prior review.[33][34]
Then a government employee, Trump was called upon for his expertise in direct-current electrical equipment, which overlapped Tesla's work. After a three-day investigation in Manhattan, Trump reported in a classified memo to OAPC that the materials had neither military value to the United States nor would "constitute a hazard in unfriendly hands."[33] In the memo, Trump expressed admiration for Tesla's well-known inventions, but assessed that his late-career ideas were "somewhat promotional" and "did not include new sound workable principles or methods."[34][33]
After many of these personal items disappeared, theFederal Bureau of Investigation received letters accusing it of suppressing Tesla's design for a secret weapon.[35] In 1984, technical papers describing the weapon were discovered at Yugoslavia'sNikola Tesla Museum and did not overturn Trump's assessment.[36][n 1]
Late in 1943, the NDRC established theBritish Branch of the Rad Lab (BBRL) atGreat Malvern, England, home of the BritishTelecommunications Research Establishment, to coordinate radar support for the plannedinvasion of Europe.[38] In February 1944, Trump was chosen to reorganize and expand the overseas laboratory, and was tasked with clarifying its relations with the British service, securing more staff, and determining its program for the coming months.[39] What was expected to be a three- or four-month assignment would last fifteen months, from D-Day planning until the fall of Berlin.[39] On February 26, Trump flew to England with DuBridge, Bowles, and physicistLouis N. Ridenour.[40] He would expand BBRL into a roughly 100-member field operation.
Trump was one of a few civilians read into secretOperation Overlord plans. He served on a joint civilian committee advisingSHAEF on the use of radar and countermeasures in the invasion, and worked alongside a separate Advisory Specialist Group (ASG) of radar experts attached to GeneralCarl Spaatz's headquarters.[41] In the months before D-Day, Trump and Ridenour promoted the modification ofSCR-584 radar sets forclose air support, using ground radar to guide fighter-bombers onto targets through cloud cover. After a successful demonstration for 9th Air Force officers in May 1944, BBRL supervised the modification program.[42] The branch also prepared the first deployment ofMicrowave Early Warning (MEW) radar, a long-range system for monitoring aircraft formations and directing fighter operations from the ground.[43]
On D-Day, the influence of the civilian radar specialists was evident. German coastal radars were jammed and deceived;radar beacons marked the paratroop drop zones behind the beaches; andH2X radar guided the bombing of beachfront fortifications ahead of the assault forces.[44] MEW radar, activated for the first time on June 6, documented from England the parachute drops and aerial bombings that preceded the troop landings.[45] When Germany began launchingV-1 flying bombs against England in the week after the landings, BBRL diverted its long-range radar to detect the rockets offshore. Working alongside gun-laying radar and theproximity fuse, these combined defenses progressively suppressed the V-1 attacks.[46][n 2] In August 1944, Trump followed Allied forces onto the continent, arriving in Paris on the final day of its liberation, where he established an Advanced Service Base for forward operations.[48]
The ground-controlled close air support technique that Trump championed in Europe proved to be one of the war's important tactical innovations. It enabled Allied air forces to support ground troops even in poor weather, as when radar-guided fighters broke through overcast to repel a German tank attack on Patton's forces in October 1944.[49] In November 1944, he was formally appointed to the Advisory Specialist Group, joining Ridenour as a civilian advisor to General Spaatz on navigational radar, precision bombing, and countermeasures.[50][9]
Trump's dual role in the BBRL and the specialist group integrated two organizations that had previously operated in parallel.[50][51] Guerlac described Trump as "one of the most respected and influential scientific figures in the entire theater," crediting his effectiveness to "personal ability, reliable judgment, quiet charm, and great patience."[52][n 3] General Spaatz echoed this assessment in a letter to GeneralArnold, calling BBRL "one of the most important factors contributing to our success" and requesting the organization be augmented rather than reduced.[53]
During his final weeks in Europe, Trump conducted debriefing interviews with the leadership ofTelefunken, the company that had developed Nazi Germany's radar. He learned that German radar development had fallen substantially behind, and attributed this to a lack of cooperation with scientists. Nazi industrialists did not work closely with physicists, and scientists were barred from accompanying equipment into combat.[51]
Returning to MIT in April 1945, Trump was appointed assistant director of the Rad Lab and organized a new Field Service division to reproduce the BBRL model in the Pacific.[54][55] He helped arrange a field radar operation in Manila at GeneralMacArthur's request, but the effort ended with Japan's surrender.[56]
Trump received recognition for his war service from both the United States and the United Kingdom.[17] In 1947,King George VI awarded Trump theMedal for Service in the Cause of Freedom for his radar work and cooperation with Britain.[57][58] A year later, President Truman awarded Trump thePresident's Certificate of Merit, given to 250 civilian scientists who "performed a meritorious act or service" during the war.[58]
After the war, Trump returned to his prior research in improving high-voltage generators, treating cancer, and began pursuing new applications of the artificial radiation. He pursued these both through research at MIT and a new company he organized, the High Voltage Engineering Corporation.
Trump returned to MIT and was appointed director of High Voltage Research Laboratory, a lab pursuing the improvement and application of electrostatic energy.[12] Building upon his pre-war collaboration with hospitals, Trump focused on applying high-voltage engineering to medical challenges, particularly cancer treatment.
Months after the war ended, Trump began work with his Huntington colleagues to treat cancer patients at a new clinic building on MIT's campus.[59] Having discovered a way to reach deep-seated tumors without harming tissues above them, he worked on methods to improve targeting. Trump designed an apparatus to rotate the patient around the beam, allowing x-rays to be cross-fired at the tumor site.[59][60] This technique, known as "rotational radiation therapy," remains widely used.
In 1949, Trump began a two-decade collaboration with theLahey Clinic, Boston's leading cancer hospital.[61][62] Over the next 22 years, over 500 cancer patients a year received treatment at MIT using Trump's x-ray generator.[63] Trump supervised treatments, improved targeting techniques, and personally trained many doctors in their use.[18] For many years, he taught radiation physics to early-career doctors.[64] The lab also focused on skin cancer treatment, designing a 5-MV electron-beam generator for targeting superficial lesions.[61][63]
Despite advances in supervoltage (>1MeV) generators, few hospitals had machinery to allow high-voltage cancer treatment by the 1940s.[60] After receiving many requests from hospitals for his generator, Trump oversaw a commercialization effort to meet demand.[60] He designed a compact, low-cost 2-MV Van de Graaff generator, then founded a firm to build them.[59][60] Between 1948 and 1969, the High Voltage Engineering Corporation manufactured 43 of these 2-MV machines, which treated as many as 1,000 patients a day in the United States alone.[23]
By the time Trump was appointed full professor in 1952, his cancer research devices had received worldwide attention.[60][10][18] He attracted support from theNational Institutes of Health and theNational Science Foundation, each of which were building major cancer research operations. His 1960Lamme Medal citation, given for contributions to electrical engineering, observed that Trump had also "remain[ed] faithful to his original goals in the treatment of malignant diseases."[10] In 1963, Trump was appointed to the board of the Lahey Clinic, and became its chair after retiring his professorship in 1973.[61] Throughout this period, he published widely in radiology and scientific instrument journals.
In 1946, Trump received more hospital inquiries about his Van de Graaff generators and decided a company could better meet demand. He approached MIT PresidentKarl Compton, who had recently co-founded theAmerican Research and Development Corporation (ARD), the first modernventure capital fund, who introduced Trump to ARD presidentGeorges Doriot.[65] Trump organized High Voltage Engineering Corporation (HVEC) with Van de Graaff and British physicist Denis M. Robinson as co-founders, whom he had met through wartime radar work.[66] ARD provided $200,000 in initial capital, Compton arranged an exclusive license to MIT's Van de Graaff patents, and both served on HVEC's board.[65][67] Trump served as HVEC's founding chairman and technical director while maintaining his MIT professorship.[66][18][n 4]
Trump's motivations—making radiation therapy affordable to patients and accessible to hospitals—set the company's early production priorities.[67][69] HVEC's first product was a commercial version of Trump's compact 2 MV generator, which could be operated by hospital technicians. It provided controllable, directed radiation that reduced damage to healthy tissue compared to traditional radium sources.[21] Between 1948 and 1969, HVEC delivered these machines to 35 U.S. hospitals and eight hospitals abroad.[70][71]
Trump's High Voltage Research Laboratory at MIT maintained close ties with HVEC. The laboratory provided technical feedback, developed clinical procedures, and tested prototypes for the company.[72] While HVEC's Van de Graaff accelerators were early market leaders in radiotherapy, cheapercobalt-60 machines and higher-voltage medicallinear accelerators debuted in the 1950s, displacing HVEC's Van de Graaff accelerators as the preferred source for radiotherapy.[60][23][n 5]
As federal funding for nuclear physics expanded, HVEC pivoted from medical devices to large research accelerators for universities and national laboratories.[74] Trump and Van de Graaff contributed technical innovations that enabled higher-voltage machines.[75][76] Between 1958 and 1973, HVEC manufactured 55tandem accelerators that became the dominant platform for nuclear physics experiments.[77] At its peak, nearly 70 percent of papers in experimental nuclear physics relied on data from HVEC accelerators.[78]
Through declining federal support for nuclear physics, HVEC's research accelerator business collapsed.[79] Trump exited his position as chairman in 1970, but continued providing technical advice over the next decade.[80] The company reorganized as a conglomerate focused on industrial radiation processing products.[79] Under this revised business model, Trump championed industrial and environmental uses of electron beam technology. In 1962, he encouraged the company to invest in new industrial applications of ionizing radiation.[75] In the late 1970s, he led research into electron beam treatment of wastewater and sewage sludge, demonstrating that high-energy radiation could eliminate pathogens and organic contaminants.[81] In 1980, HVEC received contracts from Miami-Dade County and the Massachusetts Metropolitan District Commission to develop commercial-scale water treatment systems.[82]
Along withTracerlab, HVEC was one of the first two new companies backed by ARD.[83] At the time of its 1963 public offering, HVEC was ARD's largest asset and first major success, helping establish the viability of venture capital investing ahead of the debut ofDigital Equipment Corporation.[84][85] HVEC was privately purchased in 1988 and filed for bankruptcy in 2005.[86][87] Trump held HVEC shares until his death in 1985.[88]
In 1972, Congress passed newClean Water Act standards forsecondary treatment of wastewater discharged into oceans and waterways. New rules gave cities five years to make major upgrades to sewage treatment.[89] Trump, who had longstanding interests in sterilization methods, initiated a new program at MIT concentrated on disinfecting wastewater. He researched using an electron beam from a 2-MeV accelerator as the deactivating agent in the treatment of municipal wastewater sludge.[18] The High Voltage Research Laboratory developed a prototype system that was tested at Boston'sDeer Island Waste Water Treatment Plant, and it was able to provide bacterial and viral disinfection via continuous on-line treatment.[90]
Trump retired from his faculty appointment in 1973, but continued running wastewater experiments and teaching MIT students as a senior lecturer.[58] He directed the High Voltage Research Laboratory until stepping down in 1980.[12] Trump remained engaged in wastewater research until the year of his death.[18]
Trump died inCambridge, Massachusetts on February 21, 1985.[58][91]
Trump became a trustee of the Boston Museum of Science in 1961.[92] When the museum installed the original Van de Graff generator as a permanent exhibition, he designed electrostatic shielding that allowed live audience demonstrations.[18] He became a life trustee of the museum.[18]
PresidentRonald Reagan awarded Trump the National Medal of Science in 1983 for his innovative applications of radiation in medicine, industry and atomic physics.[93] Trump died six days before theWhite House ceremony in February 1985, and his son John, Jr. accepted the medal on his behalf.[17][94] In a posthumous tribute, theNational Academy of Engineering described John Trump as "a pioneer in the scientific, engineering and medical applications of high voltage machinery."[17]
In addition to his cancer research, Trump made institutional contributions to the Lahey Clinic. While chair of its board, he advocated for the relocation of the cancer clinic to a new hospital campus inBurlington, Massachusetts. The radiation oncology building of the Lahey Hospital & Medical Center is named for Trump. In 2024, one of his scientific collaborators endowed a fund at Lahey for diagnostic radiation named for Trump.[95]
James Melcher, Trump's successor as HVRL director, claimed that Trump declined to research military weaponry during his career. Melcher, an advocate for nuclear disarmament, stated: "John, over a period of three decades, would be approached by people of all sorts because he could make megavolt beams of ions and electrons – death rays... What did he do with it? Cancer research, sterilizing sludge out inDeer Island, all sorts of wondrous things. He didn't touch the weapons stuff."[96][97] Trump worked on cancer research, sludge sterilization and also worked on military contracts fordual uses of microwave radar and high-voltage generators.
President Donald Trump has repeatedly claimed his uncle was MIT's "longest serving professor."[98] John Trump served as an MIT professor for 37 years (1936–1973), retiring at the university's then-mandatory retirement age of 65.[17] His career at MIT spanned 51 years, including research staff and senior lecturer appointments before and after his professorship.[17][98] According toNewsweek, other MIT professors have had longer tenures:Doc Edgerton remained active at MIT for nearly 62 years (1927–1989), andGilbert Strang served as professor for 61 years[98][n 6]
At a July 2025 political rally, President Trump asserted that domestic terroristTed Kaczynski was Professor Trump's student and described asking his uncle about Kaczynski's performance as a student.[100] Because the reclusive Kaczynski was identified as the Unabomber in 1996, nine years after John Trump's death, multiple media outlets concluded it was unlikely President Trump knew the Unabomber's identity during his uncle's lifetime.[100][101][102] Kaczynski was a student atHarvard University (1959–62) and theUniversity of Michigan (1962–67); MIT officials toldCNN they have no records of Kaczynski's enrollment in MIT courses.[100]
John G. Trump was a member of theTrump family.
In 1935, he married Elora Sauerbrun (1913–1983), a fellow native of New York's Jamaica neighborhood.[103] The Trumps had three children: John Gordon Trump (1938–2012) ofWatertown, Massachusetts; Christine Philp (1942–2021) ofNew London, New Hampshire; and Karen Ingraham ofLos Alamos, New Mexico; and six grandchildren.[58][104]
The Trumps lived inWinchester, Massachusetts, and were members of the Winchester Unitarian Society.[105]
Trump received a number of awards including:
Trump wrote about 100 peer-reviewed articles, published across journals inapplied physics,nuclear science,radiology and medicine, scientific instruments, andenvironmental engineering.[17][18]
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