Science - USA (2019-02-15)

INSIGHTS | PERSPECTIVES

sciencemag.org SCIENCE

PHOTO: STEPHAN SAVOIA/AP PHOTO

By Marlan O. Scully1,2,3 and

Sudhakar Prasad4,5

R

oy Glauber, theoretical physicist and

recipient of half of the 2005 Nobel

Prize in Physics, passed away on 26

December 2018. He was 93. Roy was

universally revered as a pioneer of

the fields of nuclear scattering and

quantum optics. His early elucidation of

the quantum mechanical underpinnings of

optical coherence formed the basis for ad-

vances in laser physics and quantum optics.

His optical approximations to high-energy

nuclear scattering still serve as the starting

point of more detailed analyses of such scat-

tering phenomena.

Roy was a child prodigy. In his early years,

he made a working reflection telescope and,

after learning that the spectra of starlight

were key to further understanding stars,

a spectrometer. He graduated from the fa-

mous Bronx School of Science high school

in 1941 at age 16. Although he had originally

planned to attend Rensselaer Polytechnic

Institute and major in engineering, a full

scholarship persuaded him to attend Har-

vard University instead.

His undergraduate years were dramati-

cally altered by the Japanese attack on Pearl

Harbor. The faculty began leaving Harvard

for wartime positions, and Roy was invited

to work on the Manhattan Project, at just 18

years of age. He spent 2 years in Los Alamos

in the company of esteemed physicists such

as John von Neumann, Enrico Fermi, Niels

Bohr, Hans Bethe, and J. Robert Oppen-

heimer. For the Trinity test (the first nuclear

detonation), Roy and some of his young col-

leagues climbed a nearby mountain in the

hopes of seeing the event. They had already

begun to pack up, assuming that they had

missed it or that it hadn’t worked, when the

southern sky lit up. The image was indelibly

burned into Roy’s memory.

Roy then returned to Harvard and joined

theoretical physicist Julian Schwinger’s

group. Although he never published with

Schwinger, the aspects of coherent meson-

pion physics he learned while working with

him strongly influenced Roy’s later work

on the photon coherent state. After earning

his bachelor’s degree in 1946 and his Ph.D.

in 1949, both from Harvard, Roy spent 6

months in Zürich, Switzerland, with the fa-

mous theoretical physicist Wolfgang Pauli,

and then accepted an invitation from Oppen-

heimer to work at the Institute for Advanced

Study in Princeton, New Jersey.

Next, he spent a year researching the elec-

tron diffraction of molecules in the Caltech

chemistry department under Linus Pauling.

There, he developed an accurate approxima-

tion of this problem by adapting the more

familiar methods of optical diffraction. He re-

alized that his approach to nuclear scattering

analysis would become increasingly impor-

tant as improved particle-accelerator design

enabled higher particle energies. He left

Caltech to join the faculty at Harvard, where

he continued his studies of nuclear scattering

over the next decade. The well-known Glau-

ber-eikonal theory of high-energy nuclear

scattering that eventually emerged from this

work is still used to treat high-energy colli-

sions of heavy nuclei as a probe of their de-

tailed structure.

After the first experiments of Hanbury

Brown and Twiss on intensity interferometry

in 1954, Roy became interested in the higher-

order field correlation functions. He pro-

duced a beautiful account of the multiphoton

interference phenomena using such correla-

tion functions, which serve as a valuable tool

in quantum optics. He also authored an in-

sightful paper on the stochastic dynamics of

the kinetic Ising model, which has been used

more recently to treat the nonexponential re-

laxation of linear-chain polymers.

In addition to Roy’s outstanding physics

research, he was an excellent teacher, con-

tributing mightily to the education and un-

derstanding of generations of physicists. His

1963 papers on the quantum theory of opti-

cal coherence, which earned him the Nobel

Prize, were pedagogical masterpieces; they

read like a textbook. Committed to his teach-

ing, he rarely missed a class, even on the day

he learned that he had won the Nobel. As a

fellow of the Texas A&M University Hagler

Institute for Advanced Study, he lectured

widely in Texas and beyond.

Roy was a frequent participant in confer-

ences around the world and a popular key-

note speaker at many conference banquets,

regaling his fellow attendees with his wry

sense of humor, quirky quips, and impressive

recall. His sense of humor was on full display

at the Ig Nobel awards, a Nobel Prize parody

that recognizes achievements in seemingly

absurd (ignoble) research. As part of the an-

nual ceremony, paper airplanes are launched

en masse toward the stage. For years, Roy

gleefully served as “keeper of the broom,”

sweeping up the piles of airplanes.

S.P. met Roy in 1978 and went on to be-

come his last Ph.D. student. Roy was a de-

manding and inspirational mentor. A knock

on his door would be met with his signature

cough, followed by his clarion voice summon-

ing his visitor. He insisted that his students

acquire a broad foundation of physics before

thinking about research, and he required

them to think clearly and express their points

with clarity. When researchers suggested that

they may have settled on a solution to a ques-

tion, he would find another important aspect

of the problem for them to explore. Roy was

rarely persuaded that a manuscript was ready

until he had thoroughly vetted it for rigor and

clarity, a process that could take months.

M.O.S. was fortunate to have Roy as a

mentor and friend for his entire career. They

often hiked together. On one outing, they

encountered a rattlesnake and turned it into

a hatband. On another, they saw a school of

fish, and Roy joked that the fish obeyed the

Poisson statistics of coherent light. Every ex-

perience was more fun with Roy.

Roy was a dedicated father who raised his

children, Jeff and Valerie, as a single par-

ent. He admitted without regret that he had

traded some of his scientific research pursuits

for the rewards of fatherhood. Roy’s partner

in later years, Atholie Rosett, accompanied

him to Sweden for the Nobel festivities in

2005. We of Roy’s extended family regard her
      affectionately and with much appreciation
      for making Roy’s later years pleasant and
      productive.
      Roy retired from Harvard in 2012, took
      up a position at Texas A&M, and continued
      to enjoy traveling to conferences around the
      world. He remained active and lucid to the
      very end. A veritable giant of modern theo-
      retical physics and a teacher at his very core,
      he will continue to enrich the lives of gen-
      erations of physicists and students to come.
      His legacy as a scientist, educator, father, and
      friend lives on. j
      10.1126/science.aaw7706

(^1) Texas A&M University, College Station, TX, USA. (^2) Princeton
University, Princeton, NJ, USA.^3 Baylor University, Waco,
TX, USA.^4 University of Minnesota, Minneapolis, MN, USA.
(^5) University of New Mexico, Albuquerque, NM, USA. Email:
[email protected]
RETROSPECTIVE
Roy Glauber
(1925–2018)
Father of quantum optics
698 15 FEBRUARY 2019 • VOL 363 ISSUE 6428
Published by AAAS
on February 14, 2019^
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