Harvard John A. Paulson School of Engineering and Applied Sciences

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Harvard John A. Paulson School of Engineering and Applied Sciences
HSEAS Seal New.png
Type Private
Established 1847
Endowment $1.2 billion (2017)[1]
Dean Francis J. Doyle III
Academic staff
147 faculty
642 researchers
232 staff (spring 2022)[2]
Undergraduates 1,123 (spring 2022)[2]
Postgraduates 682 (spring 2022)[2]
Location
Campus Urban
Website seas.harvard.edu

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The Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) is the engineering school within Harvard University's Faculty of Arts and Sciences, offering degrees in engineering and applied sciences to graduate students admitted directly to SEAS, and to undergraduates admitted first to Harvard College. Previously the Lawrence Scientific School and then the Division of Engineering and Applied Sciences, the Paulson School assumed its current structure in 2007. Francis J. Doyle III has been its dean since 2015.[3]

SEAS is housed in Harvard's Science and Engineering Complex (SEC) in the Allston neighborhood of Boston directly across the Charles River from Harvard's main campus in Cambridge[4] and adjacent to the Harvard Business School and Harvard Innovation Labs.[5]

History

Abbott Lawrence

Lawrence Scientific School

Harvard's efforts to provide formal education in advanced science and engineering began in 1847, when Massachusetts industrialist Abbott Lawrence gave Harvard $50,000 (Error when using {{Inflation}}: |index=US-GDP (parameter 1) not a recognized index.) to form what became known as the Lawrence Scientific School. In making his gift, Lawrence asked:[6]

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But where can we send those who intend to devote themselves to the practical applications of science? Our country abounds in men of action. Hard hands are ready to work upon our hard materials; and where shall sagacious heads be taught to direct those hands?

James Emmanuel Jr. was the first dean of the school, which hosted astronomers, architects, naturalists, engineers, mathematicians, and even philosophers.

By the late 19th century, the School faced increasing competition from the Massachusetts Institute of Technology (MIT) and was constrained by the uncertain views about its role and status by the long-serving Harvard President Charles William Eliot. Eliot was involved in at least five unsuccessful attempts to absorb MIT into Harvard.[7][better source needed] As a result of such uncertainty, the Lawrence Scientific School became less of an independent entity, losing its influence and students to other parts of the university.

In 1891, industrialist Gordon McKay designated the Lawrence Scientific School his primary beneficiary; there are now 40 McKay professorships.

In 1906, the Lawrence School's scientific and engineering programs were incorporated into Harvard College and the Graduate School of Arts and Sciences, and it ceased to exist as an independent entity.

Re-establishment

In 1914, a merger of MIT and Harvard's Applied Science departments was formally announced[8] and was to begin "when the Institute will occupy its splendid new buildings in Cambridge."[9] However, in 1917, the merger with MIT was canceled due to a decision by the State Judicial Court,[further explanation needed] so Harvard President Abbott Lawrence Lowell moved to establish the Harvard Engineering School independently instead.[10]

In 1934, the School began offering graduate-level and professional programs in engineering. During World War II, Harvard participated in the V-12 Navy College Training Program to provide training for commissioned officers. In 1942, the undergraduate Department of Engineering Sciences changed to the Department of Engineering Sciences and Applied Physics to reflect an increased emphasis on applied physics. Harvard President James Bryant Conant created what was known as "Conant's Arsenal," a research hub for defense-related engineering projects including radar jamming, night vision, aerial photography, sonar, explosives, napalm, and atomic bomb research.[11] One notable project from this era was the Harvard Mark I computer; one of the first programs to run on the Mark I was initiated on March 29, 1944, by John von Neumann, who worked on the Manhattan Project at the time, and needed to determine whether implosion was a viable choice to detonate the atomic bomb that would be used a year later.[12]

By 1945, Harvard income from government contracts was $33.5 million, the third highest among U.S. universities.[13]

Later history

Between 1946 and 1949, the Graduate School of Engineering merged its faculty with the Department of Engineering Sciences and Applied Physics into the Division of Engineering and Applied Sciences within the Harvard Faculty of Arts and Sciences.

In 2007, the Harvard Corporation and Overseers voted for the Division of Engineering and Applied Sciences to change its name to the School of Engineering and Applied Sciences (SEAS).[14][15]

In 2015, Francis J. Doyle III, former director of the Institute for Collaborative Biotechnologies, was appointed dean.[3] That year, the school was also renamed the Harvard John A. Paulson School of Engineering and Applied Sciences following a $400 million gift by Harvard Business School alumnus John A. Paulson.[16][17]

Academic overview

Undergraduates can pursue programs in computer science (AB and as a secondary field), engineering sciences (AB and SB), biomedical engineering (AB), electrical engineering (SB), environmental science and engineering (AB), mechanical engineering (SB), and applied mathematics (AB and as a secondary field). SB options for environmental science and engineering as well as biomedical engineering are also available through the engineering sciences program; ABET accreditation is offered for all of the traditional engineering disciplines. Prospective undergraduates must apply to Harvard College (Harvard's undergraduate college encompassing all concentrations): once enrolled, Harvard College students may declare a SEAS concentration in their sophomore year.[18]

At the graduate level, the School offers master's and PhD degrees in areas including applied mathematics, applied physics, bioengineering, data science, chemical engineering, computational science and engineering, computer science, electrical engineering, design engineering, applied computation, environmental science and engineering, as well as materials science and mechanical engineering. In addition, graduate students may pursue collaborative options such as Medical Engineering and Medical Physics (with Harvard–MIT Program in Health Sciences and Technology) and Systems, Synthetic, and Quantitative Biology (with Harvard Medical School).

As of January 2020, the School had 148 faculty members.[19] The faculty has particularly close ties (including joint appointments) with the FAS departments of Physics, Earth and Planetary Science, as well as Chemistry and Chemical Biology. The campus provides 600,000 square feet (56,000 m2) of interconnected labs, classrooms, clusters, and offices in six buildings.[20] In 2020 and 2021, SEAS is expected to expand into the new Science and Engineering Complex (SEC) in Allston, across the Charles River from Harvard's main location in Cambridge.[21] The SEC will be adjacent to the Enterprise Research Campus in synergy with Harvard Business School and Harvard Innovation Labs to encourage technology- and life science-focused startups as well as collaborations with mature companies.[22]

Areas of significant research focus include applied mathematics, applied physics, bioengineering, geophysics, computer science, electrical engineering, artificial intelligence, mechanical engineering, and computational neuroscience.[23]

Research highlights

Early 20th century

  • 1919 – George Washington Pierce (PhD, 1900), Rumford Professor of Physics and director of Harvard's Cruft High-Tension Electrical Laboratory invented an oscillator that enabled a given radio station to stay "fixed" at a proper frequency and allowed multiple telephone calls to occur over a single line.
  • 1938 – A cyclotron was constructed at the Graduate School of Engineering's Gordon McKay Engineering Laboratory to support research in biology and medicine as well as physics. It was projected to be the world's largest such facility. In 1942, it was sent to Los Alamos for work on the Manhattan Project to develop an atomic bomb.
  • 1944 – Howard Aiken '37 (PhD) developed the Mark I series of computers, the first large-scale automatic digital computer in the U.S. Around the same time, a new generation of technically trained students began to share their knowledge well beyond Harvard's campus. Alumnus and donor Allen E. Puckett SB '39, SM '41 created an endowed professorship at SEAS, went on to define modern aerodynamics, served as CEO of Hughes Aircraft Company, and won the National Medal of Honor in Technology.
  • 1952 – Nuclear Magnetic Resonance (NMR), the scientific foundation for MRI (used in modern medical imaging systems), was pioneered by Nicolaas Bloembergen, Edward Purcell, and Robert Pound. Purcell won the 1952 Nobel Prize in Physics for this discovery.[24]

1995 to 2006

  • Stopping light – Lene Hau and her colleagues created a new form of matter, a Bose-Einstein Condensate, to slow light to 17 meters per second and later to bring a light beam to a complete stop, then restart it again.[25]
  • Unbreakable hyper-encryption – Michael O. Rabin embedded messages in rapidly moving streams of random digital bits in ways that cannot be decoded, even with unlimited computing power.
  • Black silicon – Eric Mazur's group created a new material that efficiently traps light and has potential use in solar cells, global warming sensors and ultra-thin television screens.
  • The mathematics of nature – L. Mahadevan and colleagues discovered how the Venus flytrap snaps up its prey in a mere tenth of a second by actively shifting the curved shape of its mouth-like leaves.
  • Atmospheric modeling – Loretta J. Mickley, Dan Jacob and colleagues found that the frequency of cold fronts bringing cool, clear air out of Canada during the summer months declined by about 20 percent. These cold fronts are responsible for breaking up the hot, stagnant air that builds up regularly in summer, generating high levels of ground level ozone pollution.
  • High speed nanowire circuits – Donhee Ham and Charles Lieber made robust circuits from minuscule nanowires that align themselves on a chip of glass during low-temperature fabrication, creating rudimentary electronic devices that offer performance without high-temperature production or high-priced silicon.
  • Double emulsions – A new microfluidics-based device made by David A. Weitz and colleagues at Harvard University and Unilever makes precisely controlled double emulsions in a single step. Double emulsions, or droplets inside droplets, could be useful for encapsulating products such as drugs, cosmetics, or food additives.

2007 and beyond

  • Applied physicist Lene Hau caused a light pulse disappeared from one cold cloud then was retrieved from another cloud nearby. In the process, light was converted into matter then back into light.
  • A research team led by Mike Aziz and Earth and Planetary Sciences' Kurt House invented an engineered weathering process that might mitigate climate change.
  • Bioengineers including David Edwards collaborated with public health researchers at the Harvard T.H. Chan School of Public Health to develop a novel spray-drying method for delivering a tuberculosis vaccine that could help prevent the related spread of HIV/AIDS in the developing world.
  • Working with a team of Dutch researchers and software developers, SEAS computer scientists used a novel peer-to-peer video sharing application to explore a model for e-commerce that uses bandwidth as a global currency.
  • Rob Wood's team launched a robotic fly that could be used in everything from surveillance to chemical sensing.
  • MIT's Technology Review named the creation of light-focusing optical antennas (that could lead to DVDs that hold hundreds of movies) as one of their Top 10 emerging technologies for 2007.
  • Kit Parker's lab found that an elastic film coated with a single layer of cardiac muscle cells can semi-autonomously engage in lifelike gripping, pumping, walking and swimming.
  • Nan Sun and Donhee Ham built what may be the smallest complete nuclear magnetic resonance (NMR) system to date in a 0.1-kilogram (0.22 lb) package.[26]
  • Engineers and applied physicists demonstrated the first room-temperature electrically pumped semiconductor laser source of terahertz (THz) radiation, also known as T-rays.
  • A team composed of Harvard students and alumni was among the winners of the World Bank's Lighting Africa 2008 Development Marketplace competition, held in Accra, Ghana. The innovation, microbial fuel cell-based lighting systems suitable for Sub-Saharan Africa, netted the group a $200,000 prize.[27]
  • In collaboration with SiEnergy Systems, materials scientists at SEAS have demonstrated the first macro-scale thin-film solid-oxide fuel cell (SOFC).[28]
  • An interdisciplinary research effort investigated digitized text corpuses containing about 4% of all books ever printed in English, between 1800 and 2000. It was co-founded and co-directed by Erez Aiden and Jean-Baptiste Michel, whose prototype was instrumental in creating Google Ngram Viewer.

Notable alumni

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See also

References

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    Maclaurin quoted: "in future Harvard agrees to carry out all its work in engineering and mining in the buildings of Technology under the executive control of the president of Technology, and, what is of the first importance, to commit all instruction and the laying down of all courses to the faculty of Technology, after that faculty has been enlarged and strengthened by the addition to its existing members of men of eminence from Harvard's Graduate School of Applied Science."
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  10. President's Reports for 1917-18
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  12. Cohen, Bernard (2000). Howard Aiken, Portrait of a computer pioneer. Cambridge, Massachusetts: The MIT Press. ISBN 978-0-2625317-9-5.
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External links

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