Topic
Pulse compression
About: Pulse compression is a research topic. Over the lifetime, 7500 publications have been published within this topic receiving 114451 citations.
Papers published on a yearly basis
Papers
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TL;DR: In this paper, the amplification and subsequent recompression of optical chirped pulses were demonstrated using a system which produces 1.06 μm laser pulses with pulse widths of 2 ps and energies at the millijoule level.
3,961 citations
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01 Nov 1991
TL;DR: The Radar Equation, The Matched Filter and Pulse Compression, and Other Imaging Algorithms: Imaging and the Rectangular Algorithm.
Abstract: The Radar Equation. The Matched Filter and Pulse Compression. Imaging and the Rectangular Algorithm. Ancillary Processes in Image Formation. SAR Flight System. Radiometric Calibration of SAR Data. Geometric Calibration of SAR Data. The SAR Ground System. Other Imaging Algorithms. Appendices. List of Acronyms. Index.
1,867 citations
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01 Jan 2005
TL;DR: Signal Processing Fundamentals and Comparison of Algorithms: The Range Doppler Algorithm and the SPECAN Algorithm.
Abstract: Foreword. Introduction. Signal Processing Fundamentals. Pulse Compression. Synthetic Aperture Concepts. SAR Signal Properties. The Range Doppler Algorithm. The Chirp Scaling Algorithm. The Omega-K Algorithm. The SPECAN Algorithm. Processing ScanSAR Data. Doppler Parameter Estimation. Comparison of Algorithms. References.
1,843 citations
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TL;DR: Pulses having durations as short as 60 fsec have been directly generated by a self-mode-locked, dispersion-compensated Ti:sapphire laser and by using an extracavity fiber-prism pulse compressor.
Abstract: Pulses having durations as short as 60 fsec have been directly generated by a self-mode-locked, dispersion-compensated Ti:sapphire laser. By using an extracavity fiber-prism pulse compressor, pulse durations as short as 45 fsec have been obtained.
1,487 citations
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TL;DR: In this paper, the theory of the diffraction grating pair was developed by expanding the frequency dependence of the phase shift as far as the quadratic frequency term, and the analogy between pulse compression and Fresnel diffraction was treated.
Abstract: The theory of the diffraction grating pair is developed by expanding the frequency dependence of the phase shift as far as the quadratic frequency term. The analogy between pulse compression and Fresnel diffraction is treated. The effect of the cubic phase term is discussed for ultrashort pulses having appreciable fractional bandwidth.
1,343 citations