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His serendipitous original foray into optics research would help advance the fields of quantum optics and optical physics.

It wasn鈥檛 just his six-foot, four-inch height that made Joseph Eberly, the Andrew Carnegie Professor of Physics and a professor of optics at the University of Rochester, stand out. Eberly, who died this past week at the age of 89, was a pioneering theorist in quantum optics whose ideas reshaped the field.

鈥淲hether it was his seminal books and papers on lasers and quantum optics, his role as the founding editor in chief and architect of , his memorable moments as an instructor, or simply the camaraderie that he brought to his scientific and leadership circles, Joe left an indelible mark on all he did,鈥� says , the director of the University鈥檚 , calling him 鈥渁 giant in the optics community.鈥�

During his prolific career, Eberly published more than 400 scientific journal articles. He also coauthored three monographs and textbooks on lasers and quantum optics and cofounded three international conferences for quantum optical physics.

Eberly鈥檚 most notable contributions to his field include the initial description of the spontaneous collapse and revival effect of coherence in the dynamics of a simple quantum model, the first description of Bessel beams, predictions of the recently observed non-spreading localized states of electrons in atoms, and the sudden death effect in quantum entanglement.

The winner of numerous awards and accolades, he served as , the international society for optics and photonics, and in 2021 was selected as an Optica , its most distinguished member category. The society鈥檚 to Eberly specifically highlights his research and leadership in advancing optics and photonics worldwide. He was also a fellow of the and chair of its Division of Laser Science.

鈥極ptics by accident鈥�

Eberly鈥檚 career start in optics was serendipitous.

鈥淚 got into optics by accident,鈥� Eberly . 鈥淚 had done a theoretical PhD thesis and it didn鈥檛 have anything directly to do with optics at all.鈥�

After he earned a doctorate in physics from Stanford University in 1962, Eberly landed a research position at the Naval Ordnance Laboratory in Maryland. Upon his arrival, the division director asked him about lasers. 鈥淚t seems a little bit silly now, but I didn鈥檛 know anything really about lasers,鈥� Eberly said. 鈥淓xcept that I knew that the guy who was asking the question really wanted to know how was he going to use lasers to shoot down submarines.鈥�

Recalling that moment, Eberly before nixing the whole idea as 鈥渃ompletely crazy,鈥� explaining that there鈥檚 no wavelength that can work satisfactorily in conductive media like saltwater. Nevertheless, the lab proved his first 鈥渓ittle bit of a push in the direction of optics,鈥� which he followed up by coming to Rochester to work with Emil Wolf, whom Eberly called a 鈥渨orld guru in optics at that time.鈥�

The faculty triumvirate of Wolf, Eberly, and Leonard Mandel effectively started the field of quantum optics at the University of Rochester. 鈥淭hey were world leaders in that,鈥� according Eberly鈥檚 close friend and Rochester colleague, , a professor emeritus of optics and physics and a historian of optics. Stroud is confident that, besides his scientific acumen, Eberly will be remembered for his strong mentorship.

鈥淎ll who worked with him will state unequivocally that he had a huge influence on their lives, particularly the scientific part of it, and was crucial in the development of their careers,鈥� says Stroud. 鈥淚 could name 50 people who would say that, and that鈥檚 not just Americans.鈥�

A notable example of Eberly鈥檚 influence? His by extremely strong laser pulses was used by then-graduate student Donna Strickland to satisfy a Rochester dean鈥檚 requirement in the late 1980s that a thesis could not be based on an invention, but instead its use had to answer an intellectual question, recalls Stroud.

She did just fine with Eberly鈥檚 model: Nearly three decades later, Strickland, now a professor at the University of Waterloo in Ontario, Canada, and her former graduate advisor, G茅rard Mourou, won the 2018 Nobel Prize in Physics for the work they undertook at the University鈥檚

A teaching career spanning five decades

Stroud and Eberly, who as graduate students had shared the same thesis advisor before arriving on campus, jointly taught an introductory graduate course in quantum optics over the聽course of the half-century that they were both on the Rochester faculty.

鈥淲e had great fun with it,鈥� remembers Stroud. 鈥淚t was a privilege to share the lectures. He listened to mine, and I listened to his.鈥� In recognition of his teaching excellence, the University awarded Eberly the in 2000.

And Eberly never stopped. Having joined the Rochester physics and astronomy faculty in 1965, he was still teaching an undergraduate class this spring semester鈥擯HYS 143: 鈥攚hen he took ill a few weeks ago.

鈥淗e gave wonderful lectures,鈥� says Stroud. But he could also be intimidating, his long-time friend allows. 鈥淣ot just to undergraduates but also to colleagues.鈥� According to Stroud, Eberly held strong opinions and expressed them freely.

Part of his success lay in his intense competitiveness that extended beyond his academic pursuits. In his younger years, the lanky Eberly would play basketball at lunchtime once a week with a group on campus that also included a Rochester basketball coach. To Eberly this was more than a friendly game of pickup. 鈥淗e was known for his elbows,鈥� chuckles Stroud.

In an email to faculty, , a professor of physics and the chair of the , called colleague and friend Eberly a 鈥渟pectacular鈥� scientist. 鈥淭he hole he is leaving behind in our world feels very big to me.鈥�