Optically controlled phase array antenna [Invited]

Nuannuan Shi; Wei Li; Ninghua Zhu; Ming Li

doi:10.3788/COL201917.052301

Journals >Chinese Optics Letters >Volume 17 >Issue 5 >Page 052301 > Article

Chinese Optics Letters
Vol. 17, Issue 5, 052301 (2019)

Optically controlled phase array antenna [Invited]

Nuannuan Shi¹, Wei Li^1、2, Ninghua Zhu^1、2, and Ming Li^1、2、*

Author Affiliations

¹State Key Laboratory on Integrated Optoelectronics, Institute of Semiconductors, Chinese Academy of Sciences, Beijing 100083, China

²University of Chinese Academy of Sciences, Beijing 100049, China

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DOI: 10.3788/COL201917.052301 Cite this Article Set citation alerts

Nuannuan Shi, Wei Li, Ninghua Zhu, Ming Li. Optically controlled phase array antenna [Invited][J]. Chinese Optics Letters, 2019, 17(5): 052301 Copy Citation Text

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Fig. 1. (a) Schematic diagram of the phase array antenna. (b) Schematic diagram of beam forming using phase shifters.

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(a) Schematic of a multi-channel, multi-bit programmable photonic beam former. (b) Schematic of a delay subnetwork. DWDM, dense wavelength division multiplexing; MZM, Mach–Zehnder modulator; EDFA, erbium-doped fiber amplifier; PTTD, photonic true-time delay; PD, photodetector; MEMS, micro-electro mechanical switch.

Fig. 2. (a) Schematic of a multi-channel, multi-bit programmable photonic beam former. (b) Schematic of a delay subnetwork. DWDM, dense wavelength division multiplexing; MZM, Mach–Zehnder modulator; EDFA, erbium-doped fiber amplifier; PTTD, photonic true-time delay; PD, photodetector; MEMS, micro-electro mechanical switch.

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Fig. 3. PAA radiation patterns based on photonic beam former.

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Fig. 4. (a) Beam forming based on FG. (b) The time delay curves of the nine channels. TLS, tunable laser source; PC, polarization controller; EOM, electro-optical modulator; FG, fiber grating; PD, photodetector.

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Fig. 5. (a) Beam forming based on CFG. (b) Time delay measurement results for four channels. TLS, tunable laser source; MZM, Mach–Zehnder modulator; WDM, wavelength division multiplexing; PD, photodetector.

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Fig. 6. Schematic architecture of the optically steered phased array radar. TLS, tunable laser source; MZM, Mach–Zehnder modulator; LNA, low noise amplifier; EDFA, erbium-doped fiber amplifier; SMF, single-mode fiber; DCF, dispersion compensation fiber; PD, photodetector; ATT, attenuator; PT, phase trimmer.

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Fig. 7. (a) Time delays of the DCF-based TTD units. (b) Amplitude characteristics for eight paths through the TTD device. (c) Beam steered angles at different frequencies.

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Fig. 8. Measurement result for a single target.

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Fig. 9. (a)–(d) Measurement result for the double target.

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Fig. 10. (a) Schematic architecture of the photonic-based PAA system with an ultra-fast wavelength-swept laser source. LD, laser diode; AWG, arbitrary waveform generator; MZM, Mach–Zehnder modulator; DCF, dispersion compensation fiber; LNA, low noise amplifier; EDFA, erbium-doped fiber amplifier; SMF, single-mode fiber; PD, photodetector; ATT, attenuator; PT, phase trimmer. (b),(c) Principle of the ultra-fast wavelength-swept laser source.

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Fig. 11. (a) Measured spectrum. (b) The waveform of the electrical pulse. (c) The received signals of the PAA system with wavelength spacing of 2.4 nm.

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