High-stability time-domain balanced homodyne detector for ultrafast optical pulse applications

Details High-stability time-domain balanced homodyne detector for ultrafast optical pulse applications High-stability time-domain balanced homodyne detector for ultrafast optical pulse applications

2011-12-05

arxiv.org/abs/1112.0875v1

Physics

Quantum Physics

Scientific paper

Low-noise, efficient, phase-sensitive optical detection is essential for probing fundamental quantum physics and realizing numerous applications ranging from quantum state tomography to coherent telecommunications. Stability, bandwidth, efficiency, and signal-to-noise ratio are crucial performance parameters for effective detector operation. Here we present a high-speed, low-noise, ultra-stable coherent measurement scheme based on balanced homodyne detection ideally suited to characterization of quantum and classical light fields.

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