Construction of Photonic Rotman-Lens Module for Radar Phased Array Antennas

Z. Zalevsky; S Avraham; M Haning; S Zach; M Tur

Construction of Photonic Rotman-Lens Module for Radar Phased Array Antennas

Z. Zalevsky, S Avraham, M Haning, S Zach, M Tur

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In this paper we report for the first time the construction and the experimental characterization of a novel microwave photonic implementation of a Rotman-lens that eventually offers improved performance for Radar phased array antennas. The proposed scanning unit is an optical module, where photo-detectors connected to the transmitting/receiving antennas are the interfaces, converting between the RF signals and their respective optical waves. In addition to the improvement that is obtained by realizing the solution in photonics, the proposed improved design for the photonic Rotman lens realizes a linear phase profile with a varied slope, that is obtained at the output of the lens for any possible position at the input to the lens. This is in contrast to what is currently available with the conventional RF Rotman lens, where output phase front linearity is obtained for a small and discrete number of input positions.

Original language	American English
Title of host publication	Microwaves, Communications, Antennas and Electronics Systems (COMCAS), 2011 IEEE International Conference on
Publisher	IEEE
State	Published - 2011

Bibliographical note

Place of conference:Israel

Cite this

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title = "Construction of Photonic Rotman-Lens Module for Radar Phased Array Antennas",

abstract = "In this paper we report for the first time the construction and the experimental characterization of a novel microwave photonic implementation of a Rotman-lens that eventually offers improved performance for Radar phased array antennas. The proposed scanning unit is an optical module, where photo-detectors connected to the transmitting/receiving antennas are the interfaces, converting between the RF signals and their respective optical waves. In addition to the improvement that is obtained by realizing the solution in photonics, the proposed improved design for the photonic Rotman lens realizes a linear phase profile with a varied slope, that is obtained at the output of the lens for any possible position at the input to the lens. This is in contrast to what is currently available with the conventional RF Rotman lens, where output phase front linearity is obtained for a small and discrete number of input positions.",

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note = "Place of conference:Israel",

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T1 - Construction of Photonic Rotman-Lens Module for Radar Phased Array Antennas

AU - Zalevsky, Z.

AU - Avraham, S

AU - Haning, M

AU - Zach, S

AU - Tur, M

N1 - Place of conference:Israel

PY - 2011

Y1 - 2011

N2 - In this paper we report for the first time the construction and the experimental characterization of a novel microwave photonic implementation of a Rotman-lens that eventually offers improved performance for Radar phased array antennas. The proposed scanning unit is an optical module, where photo-detectors connected to the transmitting/receiving antennas are the interfaces, converting between the RF signals and their respective optical waves. In addition to the improvement that is obtained by realizing the solution in photonics, the proposed improved design for the photonic Rotman lens realizes a linear phase profile with a varied slope, that is obtained at the output of the lens for any possible position at the input to the lens. This is in contrast to what is currently available with the conventional RF Rotman lens, where output phase front linearity is obtained for a small and discrete number of input positions.

AB - In this paper we report for the first time the construction and the experimental characterization of a novel microwave photonic implementation of a Rotman-lens that eventually offers improved performance for Radar phased array antennas. The proposed scanning unit is an optical module, where photo-detectors connected to the transmitting/receiving antennas are the interfaces, converting between the RF signals and their respective optical waves. In addition to the improvement that is obtained by realizing the solution in photonics, the proposed improved design for the photonic Rotman lens realizes a linear phase profile with a varied slope, that is obtained at the output of the lens for any possible position at the input to the lens. This is in contrast to what is currently available with the conventional RF Rotman lens, where output phase front linearity is obtained for a small and discrete number of input positions.

UR - https://scholar.google.co.il/scholar?q=Construction+of+Photonic+Rotman-Lens+Module+for+Radar+Phased+Array+Antennas&btnG=&hl=en&as_sdt=0%2C5

M3 - Conference contribution

BT - Microwaves, Communications, Antennas and Electronics Systems (COMCAS), 2011 IEEE International Conference on

PB - IEEE

ER -

Construction of Photonic Rotman-Lens Module for Radar Phased Array Antennas

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