人妻少妇专区

人妻少妇专区 researchers are setting a new standard when it comes to producing ultrafast laser pulses over a broader range of wavelengths than traditional laser sources.

In work published in , , an assistant professor of optics, along with members of his lab, describe a new device, called the 鈥渟tretched-pulse soliton Kerr resonator,鈥� that enhances the performance of ultrafast laser pulses. The work has important implications for a range of engineering and biomedical applications, including spectroscopy, frequency synthesis, distance ranging, pulse generation, and others.

The device creates an ultrafast laser pulse鈥攐n the order of femtoseconds, or one quadrillionth of a second鈥攖hat鈥檚 freed from the physical limits endemic to sources of laser light鈥攚hat laser scientists call laser gain鈥攁nd the limits of the sources鈥� wavelengths.

鈥淪imply put, this is the shortest pulse ever from a gain-free fiber source,鈥� Renninger says.

Renninger and his team of graduate research and postdoctoral associates improved upon Kerr resonators, an exciting new alternative for generating femtosecond laser pulses that have been the subject of considerable research.

The lab overcame a challenge to pulse duration in other versions of Kerr resonators by discovering a new soliton鈥攁 short burst or localized envelope of a wave鈥攖hat maintains its shape while propagating at a constant velocity. The solitons generated in Renninger鈥檚 device differ from the solitons in other Kerr resonators, specifically in the shape and behavior of the stretching pulses they create.

鈥淚t is stable in the sense it keeps repeating the same thing over and over, getting longer, then shorter, longer then shorter,鈥� Renninger says.

The pulses 鈥渇eature a broad spectral bandwidth and a compressed pulse duration of 210 femtoseconds, which is the shortest pulse duration observed to date from fiber Kerr resonators,鈥� the researchers state in the paper.

Lead author Xue Dong is a graduate research associate in the Renninger lab. In addition to Renninger, other coauthors are Qian Yang and Christopher Spiess, also graduate research associates in the lab, and Victor Bucklew, a former postdoctoral associate in the lab.

The study was funded by in part by the University鈥檚 Technology Development Fund, a University Research Award, and by the National Institutes of Health.

Making ultrafast lasers more accessible

Renninger, an expert in creating sources for femtosecond lasers, received his BS and PhD degrees in applied physics from Cornell University. Before joining the Institute of Optics, he was a postdoctoral associate and an associate research scientist in the Department of Applied Physics at Yale University.

He recently received a National Science Foundation , which includes funding to create open source access to information for designing and creating advanced lasers sources generating femtosecond pulses.

鈥淭here are now commercial products, but they鈥檙e very expensive. They are prohibitive for many research groups with limited budgets for equipment,鈥� Renninger says.

Much of the cost is for expertise, not components, so his group will use part of the CAREER funding to provide consulting for research groups at smaller universities in how to design and build femtosecond lasers for basic research.

鈥淭he ultimate goal is to have a design guide published on our website for everybody,鈥� Renninger says.

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