August 8, 2017
In a recent paper in Light: Science & Applications, University of Rochester researchers Jannick Rolland and Jacob Reimers describe an optical device with potential applications ranging from improved satellite and diagnostic imagery to more precisely matching the paint color on a living room wall.
August 1, 2017
It was a pivotal moment for Michelle Relin. Then a junior at The Institute of Optics, she “snuck out of a lab” to hear a presentation by recruiters from Edmund Optics during a fall meeting of the Industrial Associates (IA) – nearly 40 leading optics companies that partner with the Institute.
July 19, 2017
The late Kevin Thompson, who served as a visiting scientist at The Institute of Optics, has been honored by The Optical Society, which has named a new award in his honor. Kevin was a leading expert in understanding the aberration fields of a new class of nonsymmetric optical systems using freeform optical surfaces. The Kevin P. Thompson Optical Design Innovator Award will recognize contributions to optical engineering, lens design, or metrology at an early career stage. Learn more about the award and OSA’s fundraising campaign.
July 19, 2017
A new publication in Science by a team including The Institute's Prof. Robert Boyd uses electromagnetic theory to predict a means to surpass a bandwidth limit for "high-Q systems." The "quality," or "Q," of a system represents how easily the system can absorb energy at its natural resonant frequency. According to the article, higher-Q systems have narrower bandwidth--a narrower range of frequency over which they can absorb energy--but this range may be broader in "asymmetric systems." The abstract (and full text for AAAS members) is here.
July 18, 2017
Local high school students had a fun and educational week at the 2017 Photon Camp. Photon Camp is a free, one-week program where rising high school juniors and seniors can explore the growing field of optics and optical engineering. Students spend the week attending faculty lectures, visiting local optics industry sites, and working in the Institute of Optics laboratories.
June 27, 2017
On July 1st, Scott Carney, a professor of electrical and computer engineering at the University of Illinois at Urbana-Champaign, will take over as the 11th director of The Institute of Optics. (Including interims, a total of 15 have served.) The outgoing director, Xi-Cheng Zhang, will remain on the faculty as the M. Parker Givens Professor of Optics. Carney earned his PhD in physics at Rochester studying with Emil Wolf, the Wilson Professor of Optical Physics and Professor of Optics.
June 1, 2017
Passionate. Forceful. Creative. Effective.
These are the adjectives that help explain why Jannick Rolland is the 2017 recipient of the Edmund A. Hajim Outstanding Faculty Award.
Rolland, the Brian J. Thompson Professor of Optical Engineering, joined the Institute of Optics in 2009.
Since then, she has:
• Helped shape the Robert E. Hopkins Center for Optical Engineering, which she has directed since 2012. It is now a shared instrumentation facility that promotes collaboration across departments, and recruits diverse undergraduates from optics and mechanical and chemical engineering into its research.
• Spearheaded the 2013 creation of the Center for Freeform Optics (CeFO), which she directs and which now has 16 corporate and research laboratory members. CeFO, a joint venture with UNC-Charlotte, brings the universities and companies together at the precompetitive research stage of a game-changing new technology. Freeform optics uses lenses and mirrors in a range of shapes to deliver increasingly compact, lightweight and easily targetable optical devices.
• Co-founded and is CTO of LighTopTech, which she launched in 2013 with Cristina Canavesi, based on high definition volumetric microscopy Canavesi helped develop in the Rolland lab. A liquid lens refocuses at different depths inside samples to obtain high-resolution volumetric images of materials. This allows medical professionals to rapidly and noninvasively image subcellular structures beneath the surface of the skin or within the human eye. It can also capture details inside materials to monitor the quality of manufacturing processes.
• “Produced some of the very best students,” says Xi-Cheng Zhang, director of the Institute of Optics and M. Parker Givens Professor of Optics. For example, Kyle Fuerschbach, one of her graduate students, was awarded the 2014 outstanding dissertation award in the Hajim School for pioneering work in freeform optics.
“The Hajim Outstanding Faculty Award is a perfect recognition for Prof. Rolland’s contributions,” Zhang says.
May 18, 2017
Congratulations to University of Rochester PhD student Jonathan Papa, recipient of the 2017 Michael Kidger Memorial Scholarship Award. This prestigious award recognizes Papa's outstanding achievement in optical design. Papa is currently in his third year as a, now qualified, PhD student at The Institute of Optics, School of Engineering and Applied Sciences under the tutelage of Prof. Jannick Rolland, Brian J. Thompson Professor of Optical Engineering.
May 3, 2017
Justin Schultz, currently a postdoctoral researcher at the Institute, was awarded the 2017 Outstanding Dissertation Award for Engineering at the University of Rochester. In addition to the recognition of an outstanding dissertation is a monetary award of $1000. Schultz was advised by Professor Nicholas Bigelow of the Department of Physics and Astronomy and the Institute of Optics. His dissertation research was in the field of Bose-Einstein condensates (BECs).
April 26, 2017
A new report from the Science Coalition, “American-Made Innovation Sparking Economic Growth,” highlights one of the many ways investments in basic scientific research benefits the overall economy: the formation of new companies. One of the startups featured in the report, Clerio Vision, was founded in 2014 by Researchers Wayne Knox (right) and Jon Ellis with the Institute of Optics, and Krystel Huxlin (left) with the Flaum Eye Institute in the Medical Center.
April 17, 2017
Professor Jonathan Ellis of the Department of Mechanical Engineering, the Institute of Optics, and the Center for Freeform Optics was recently awarded an NSF CAREER award in the amount of $500,000. The award is part of the NSF’s Faculty Early Career Development Program. “The Faculty Early Career Development (CAREER) Program is a Foundation-wide activity that offers the National Science Foundation's most prestigious awards in support of early-career faculty who have the potential to serve as academic role models in research and education and to lead advances in the mission of their department or organization.1” Prof. Ellis’s proposal was on “Breaking the freeform optics metrology barrier with synthetic wavelength interferometry.” The project will empower optical designers and manufacturers with metrology methodologies that can measure advanced freeform optics.
March 30, 2017
Institute of Optics researchers Chunlei Guo, Anatoliy Vorobyev, and Ranran Fang have developed a technique to create video images of the changes on a metal surface as they are bombarded by femtosecond laser pulses.
January 3, 2017
2016 has been a year of achievement with research awards, fellowships, special workshops, and even sporting events. As we begin 2017 with excitement, the Institute Director, Xi-Cheng Zhang, reflects on the many exciting events of 2016:
December 12, 2016
On the back side of the cornea is a single layer of cells that play an all-important role, maintaining just the right fluid balance to keep the cornea transparent so light can enter the eye.
December 5, 2016
Undergraduate David Lippman ’18 of The Institute of Optics spent this past summer as an intern at Arnold & Richter Cine Technik (ARRI) in Munich, Germany. The 100-year-old company engineers and manufactures movie cameras, lenses, lights, and other motion picture technology. David was able to do both lab research and computer programming — and came back with some new ideas about what he might do with his career. Read more here.
November 28, 2016
Robert Boyd, professor of optics, has been elevated to Fellow of IEEE (Institute of Electrical and Electronics Engineers), the world’s largest association of technical professionals. The distinction is reserved for select IEEE members for extraordinary accomplishments in their field. Boyd’s citation is for contributions to the fields of nonlinear optics and photonics. Professor Boyd is also a fellow of the Optical Society of America and a fellow of the American Physical Society.
Professor Boyd joined the faculty of the Institute of Optics of the University of Rochester in 1977 and is presently Professor of Optics and Professor of Physics. He has published approximately 350 research papers, holds nine US patents and has supervised the PhD theses of 33 students.
In 2010, Boyd was awarded a highly competitive Canada Excellence Research Chair at the University of Ottawa. He currently directs a major research center at the University of Ottawa while still maintaining a significant research presence at the University of Rochester.
He received a bachelor of science degree in physics from the Massachusetts Institute of Technology and in 1977 received a PhD degree in physics from the University of California at Berkeley. His PhD thesis work was supervised by Professor Charles Townes and involves the use of nonlinear optical techniques for infrared detection.
September 1, 2016
Kang Liu, a PhD student in optics, and Xi-Cheng Zhang, the M. Parker Givens Professor of Optics and director of the Institute of Optics, collaborated with Tzortzakis Stelios' group in Greece on an ingenious way to extend the "reach" of terahertz waves with an unconventional laser beam, called a ring-Airy beam. “It makes possible the remote sensing of chemical, biological, and explosive materials from a standoff distance,” Xi-Cheng explains, making this a promising tool for Homeland Security and law enforcement agencies. Read more here.
August 30, 2016
As we start the 2016 fall semester, it is my pleasure to welcome all new and returning students, faculty, staff and members of The Institute. The Institute of Optics was founded in 1929 as the first Optics education program in the United States of America. Here we continue to educate generations of leaders in the ever-growing field of Optics, and provide unparalleled advancements through research. Whether you are new, or a returning member of The Institute, I congratulate you on the decision to pursue your dreams and aspirations here. While you are here, The Institute of Optics is your home, and you will now always be a part of a strong academic community.
August 30, 2016
Nick studied electrical engineering at Boston University and received his PhD in 2007. During this time he developed high resolution microscopy and spectroscopy techniques to study the electro-optic properties of individual nanostructures. Following his PhD, he was a postdoctoral fellow from 2007-2011 in the Cavendish Laboratory at the University of Cambridge.
August 30, 2016
July 19, 2016
Local high school students had a fun and educational week at the 2016 Photon Camp. Photon Camp is a free, one-week program where rising high school juniors and seniors can explore the growing field of optics and optical engineering. Students spend the week attending faculty lectures, visiting local optics industry sites, and working in the Institute of Optics laboratories.
July 14, 2016
Prof. Nick Vamivakas has been awarded the two-year Leonard Mandel Faculty Fellowship from the Department of Physics and Astronomy, University of Rochester, where Nick has a secondary appointment. This fellowship was founded in honor of Professor Leonard Mandel (1927 — 2001) by many of his former students and colleagues worldwide. It recognizes excellent work on the topics within quantum and classical optics which were most important to Mandel, with the goal of encouraging more work, especially among our junior faculty.
July 8, 2016
While pursuing a master’s degree at The Institute of Optics, Amy Frantz learned real-world skills -- and made connections that landed her a job with a leading producer of optics, imaging and photonics technology.