Journal ArticleDOI
Ultrahigh-Speed Optical Processing Using Space-Time Duality
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TLDR
Temporal all-optical processing systems as mentioned in this paper provide a practical approach for meeting the bandwidth demands of next-generation ultra-high-speed technologies based on the space-time duality of light.Abstract:
Temporal all-optical processing systems—which are based on the space-time duality of light—provide a practical approach for meeting the bandwidth demands of next-generation ultrahigh-speed technologies.read more
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Journal ArticleDOI
Application of space–time duality to ultrahigh-speed optical signal processing
TL;DR: The concept of space–time duality as a system design tool for ultrafast optical processing and characterization enables the realization of highly complex signal processing systems that can generate, characterize, and manipulate arbitrary and non-repetitive optical waveforms at unprecedented processing speeds.
Journal ArticleDOI
Theoretical Analysis and Practical Considerations for the Integrated Time-Stretching System Using Dispersive Delay Line (DDL)
TL;DR: This paper performs the theoretical analysis and experimental demonstration of an on-chip implementation of a Ku-band nanosecond scale time-stretching (TS) system in a 130-nm IBM 8RF CMOS process and derives the error and distortion of a general TS system based on a dispersive delay line with perfect linear group delay and all pass amplitude characteristic.
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Lightweight Raman spectroscope using time-correlated photon-counting detection
Zhaokai Meng,Georgi I. Petrov,Shuna Cheng,Javier A. Jo,Kevin K. Lehmann,Vladislav V. Yakovlev,Marlan O. Scully,Marlan O. Scully,Marlan O. Scully +8 more
TL;DR: A lightweight and energy-efficient hyperspectral Raman measurement system that allows space- and UAV-based Raman spectrometers to robustly perform hyperspectRAL Raman acquisitions without excessive energy consumption.
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Control and Measurement of Quantum Light Pulses for Quantum Information Science and Technology
Michał Karpiński,Alex O. C. Davis,Alex O. C. Davis,Filip Sośnicki,Valérian Thiel,Brian J. Smith +5 more
Journal ArticleDOI
Temporal self-imaging effect for periodically modulated trains of pulses
TL;DR: It is demonstrated that, for each input pulse and for some specific values of the chromatic dispersion, a subtrain of optical pulses is generated whose envelope is determined by the Discrete Fourier Transform of the modulating coefficients.