Low-Distortion Long Variable Delay of Linear Frequency Modulated Waveforms

Low-Distortion Long Variable Delay of Linear Frequency Modulated Waveforms

The impulse response of 500-MHz-wide, linear frequency modulated (LFM) waveforms is delayed and advanced by 50 ns using microwave-photonic processing. The delays are obtained through the application of a variable frequency offset to a single optical sideband using an acousto-optic modulator. The pea...

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Main Authors: Yonatan Stern, Ofir Klinger, Thomas Schneider, Kambiz Jamshidi, Avi Peer, Avi Zadok
Format: Article
Language:English
Published: IEEE 2012-01-01
Series:IEEE Photonics Journal
Subjects:
Linear frequency modulated (LFM) waveforms
microwave photonics (MWPs)
optical beam forming
variable optical delay
Online Access:https://ieeexplore.ieee.org/document/6174423/
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spelling doaj-7122f4f9ff09400dae5e7f6bfa95ec992021-03-29T17:06:33ZengIEEEIEEE Photonics Journal1943-06552012-01-014249950310.1109/JPHOT.2012.21919476174423Low-Distortion Long Variable Delay of Linear Frequency Modulated WaveformsYonatan Stern0Ofir Klinger1Thomas Schneider2Kambiz Jamshidi3Avi Peer4Avi Zadok5<formula formulatype="inline"><tex Notation="TeX">$^{1}$</tex></formula>Faculty of Engineering, Bar-Ilan University, Ramat-Gan, IsraelFaculty of Engineering, Bar-Ilan University, Ramat-Gan, Israel<formula formulatype="inline"><tex Notation="TeX">$^{2}$</tex></formula>Institut f&#x00FC;r Hochfrequenztechnik , Hochschule f&#x00FC;r Telekommunikation, Leipzig, GermanyInstitut f&#x00FC;r Hochfrequenztechnik, Hochschule f&#x00FC;r Telekommunikation, Leipzig, Germany<formula formulatype="inline"><tex Notation="TeX">$^{3}$</tex></formula>Department of Physics, Faculty of Exact Sciences, Bar-Ilan University, Ramat-Gan, IsraelFaculty of Engineering, Bar-Ilan University, Ramat-Gan, IsraelThe impulse response of 500-MHz-wide, linear frequency modulated (LFM) waveforms is delayed and advanced by 50 ns using microwave-photonic processing. The delays are obtained through the application of a variable frequency offset to a single optical sideband using an acousto-optic modulator. The peak-to-sidelobe ratio (PSLR) and integrated sidelobe ratio (ISLR) of the processed impulse response functions are higher than 18 and 20 dB, respectively, for the entire range of delay and advancement. The ISLR is 14 dB better than that of corresponding previous demonstrations. The results provide, for the first time, 100-ns microwave-photonic delay variations of practical radar signals with a high fidelity that complies with application standards. The method is applicable to LFM waveforms of arbitrary bandwidths and central radio frequencies.https://ieeexplore.ieee.org/document/6174423/Linear frequency modulated (LFM) waveformsmicrowave photonics (MWPs)optical beam formingvariable optical delay
collection DOAJ
language English
format Article
sources DOAJ
author Yonatan Stern
Ofir Klinger
Thomas Schneider
Kambiz Jamshidi
Avi Peer
Avi Zadok
spellingShingle Yonatan Stern
Ofir Klinger
Thomas Schneider
Kambiz Jamshidi
Avi Peer
Avi Zadok
Low-Distortion Long Variable Delay of Linear Frequency Modulated Waveforms
IEEE Photonics Journal
Linear frequency modulated (LFM) waveforms
microwave photonics (MWPs)
optical beam forming
variable optical delay
author_facet Yonatan Stern
Ofir Klinger
Thomas Schneider
Kambiz Jamshidi
Avi Peer
Avi Zadok
author_sort Yonatan Stern
title Low-Distortion Long Variable Delay of Linear Frequency Modulated Waveforms
title_short Low-Distortion Long Variable Delay of Linear Frequency Modulated Waveforms
title_full Low-Distortion Long Variable Delay of Linear Frequency Modulated Waveforms
title_fullStr Low-Distortion Long Variable Delay of Linear Frequency Modulated Waveforms
title_full_unstemmed Low-Distortion Long Variable Delay of Linear Frequency Modulated Waveforms
title_sort low-distortion long variable delay of linear frequency modulated waveforms
publisher IEEE
series IEEE Photonics Journal
issn 1943-0655
publishDate 2012-01-01
description The impulse response of 500-MHz-wide, linear frequency modulated (LFM) waveforms is delayed and advanced by 50 ns using microwave-photonic processing. The delays are obtained through the application of a variable frequency offset to a single optical sideband using an acousto-optic modulator. The peak-to-sidelobe ratio (PSLR) and integrated sidelobe ratio (ISLR) of the processed impulse response functions are higher than 18 and 20 dB, respectively, for the entire range of delay and advancement. The ISLR is 14 dB better than that of corresponding previous demonstrations. The results provide, for the first time, 100-ns microwave-photonic delay variations of practical radar signals with a high fidelity that complies with application standards. The method is applicable to LFM waveforms of arbitrary bandwidths and central radio frequencies.
topic Linear frequency modulated (LFM) waveforms
microwave photonics (MWPs)
optical beam forming
variable optical delay
url https://ieeexplore.ieee.org/document/6174423/
work_keys_str_mv AT yonatanstern lowdistortionlongvariabledelayoflinearfrequencymodulatedwaveforms
AT ofirklinger lowdistortionlongvariabledelayoflinearfrequencymodulatedwaveforms
AT thomasschneider lowdistortionlongvariabledelayoflinearfrequencymodulatedwaveforms
AT kambizjamshidi lowdistortionlongvariabledelayoflinearfrequencymodulatedwaveforms
AT avipeer lowdistortionlongvariabledelayoflinearfrequencymodulatedwaveforms
AT avizadok lowdistortionlongvariabledelayoflinearfrequencymodulatedwaveforms
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