Demonstration of low differential phase noise for optical phased arrays with optical amplification

B.S. Vikram; Marco Gagino; Alonso J. Millán Mejía; Luc M. Augustin; Kevin A. Williams; Victor Dolores Calzadilla

Demonstration of low differential phase noise for optical phased arrays with optical amplification

B.S. Vikram, Marco Gagino, Alonso J. Millán Mejía, Luc M. Augustin, Kevin A. Williams, Victor Dolores Calzadilla

Photonic Integration

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Optical phased arrays (OPAs) are key enablers for light detection and ranging (LiDAR) in autonomous vehicles, free space optical communications, imaging and coherent beam combining. Active OPAs (with amplitude and phase control) allow the control of individual channel gains along with phases for enhanced control of far-field beam pattern. Path length variations and noise from amplifiers degrade the differential phase noise between the OPA channels, which is a key performance indicator that determines the far-field performance in terms of power in the main lobe, extinction of side lobes and pointing error. Conventionally, in fiber-based platforms, multiple phase locked loops are required to reduce the differential phase noise by locking the channels.
In this work, we investigate the differential phase noise in an InP active OPA and demonstrate less than 10 mrad differential phase noise corresponding to a stability better than λ/600. To the best of our knowledge, this is the first demonstration of low differential phase noise in an active OPA with amplification in a photonic integrated platform. This result enables on-chip OPA amplification in the InP platform without active locking, thus reducing the system complexity and power consumption.

Originele taal-2	Engels
Titel	Proceedings of the 26th annual Symposium of the IEEE Photonics Benelux Chapter 2022
Plaats van productie	Eindhoven
Aantal pagina's	4
Status	Gepubliceerd - 25 nov. 2022
Evenement	26th Annual Symposium of the IEEE Photonics Benelux Chapter - Eindhoven University of Technology, Eindhoven, Nederland Duur: 24 nov. 2022 → 25 nov. 2022 https://www.aanmelder.nl/ieee-ps-benelux-2022

Congres

Congres	26th Annual Symposium of the IEEE Photonics Benelux Chapter
Land/Regio	Nederland
Stad	Eindhoven
Periode	24/11/22 → 25/11/22
Internet adres	https://www.aanmelder.nl/ieee-ps-benelux-2022

Financiering

This work has received funding support from the European Union Horizon 2020 program through the NewControl project under grant no 826653.

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Vikram, B. S., Gagino, M., Millán Mejía, A. J., Augustin, L. M., Williams, K. A., & Dolores Calzadilla, V. (2022). Demonstration of low differential phase noise for optical phased arrays with optical amplification. In Proceedings of the 26th annual Symposium of the IEEE Photonics Benelux Chapter 2022 https://photonics-benelux.org/wp-content/uploads/pb-files/proceedings/2022/Posters/Poster_46.pdf

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title = "Demonstration of low differential phase noise for optical phased arrays with optical amplification",

abstract = "Optical phased arrays (OPAs) are key enablers for light detection and ranging (LiDAR) in autonomous vehicles, free space optical communications, imaging and coherent beam combining. Active OPAs (with amplitude and phase control) allow the control of individual channel gains along with phases for enhanced control of far-field beam pattern. Path length variations and noise from amplifiers degrade the differential phase noise between the OPA channels, which is a key performance indicator that determines the far-field performance in terms of power in the main lobe, extinction of side lobes and pointing error. Conventionally, in fiber-based platforms, multiple phase locked loops are required to reduce the differential phase noise by locking the channels.In this work, we investigate the differential phase noise in an InP active OPA and demonstrate less than 10 mrad differential phase noise corresponding to a stability better than λ/600. To the best of our knowledge, this is the first demonstration of low differential phase noise in an active OPA with amplification in a photonic integrated platform. This result enables on-chip OPA amplification in the InP platform without active locking, thus reducing the system complexity and power consumption.",

keywords = "optical phased array, differential phase noise, LiDAR, indium phosphide (InP), photonic integrated circuit (PIC)",

author = "B.S. Vikram and Marco Gagino and {Mill{\'a}n Mej{\'i}a}, {Alonso J.} and Augustin, {Luc M.} and Williams, {Kevin A.} and {Dolores Calzadilla}, Victor",

year = "2022",

month = nov,

day = "25",

language = "English",

booktitle = "Proceedings of the 26th annual Symposium of the IEEE Photonics Benelux Chapter 2022",

note = "26th Annual Symposium of the IEEE Photonics Benelux Chapter ; Conference date: 24-11-2022 Through 25-11-2022",

url = "https://www.aanmelder.nl/ieee-ps-benelux-2022",

}

Vikram, BS , Gagino, M, Millán Mejía, AJ, Augustin, LM , Williams, KA & Dolores Calzadilla, V 2022, Demonstration of low differential phase noise for optical phased arrays with optical amplification. in Proceedings of the 26th annual Symposium of the IEEE Photonics Benelux Chapter 2022. Eindhoven, 26th Annual Symposium of the IEEE Photonics Benelux Chapter, Eindhoven, Nederland, 24/11/22. <https://photonics-benelux.org/wp-content/uploads/pb-files/proceedings/2022/Posters/Poster_46.pdf>

Demonstration of low differential phase noise for optical phased arrays with optical amplification. / Vikram, B.S.; Gagino, Marco; Millán Mejía, Alonso J. et al.
Proceedings of the 26th annual Symposium of the IEEE Photonics Benelux Chapter 2022. Eindhoven, 2022.

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/Congresprocedure › Conferentiebijdrage › Academic › peer review

TY - GEN

T1 - Demonstration of low differential phase noise for optical phased arrays with optical amplification

AU - Vikram, B.S.

AU - Gagino, Marco

AU - Millán Mejía, Alonso J.

AU - Augustin, Luc M.

AU - Williams, Kevin A.

AU - Dolores Calzadilla, Victor

PY - 2022/11/25

Y1 - 2022/11/25

N2 - Optical phased arrays (OPAs) are key enablers for light detection and ranging (LiDAR) in autonomous vehicles, free space optical communications, imaging and coherent beam combining. Active OPAs (with amplitude and phase control) allow the control of individual channel gains along with phases for enhanced control of far-field beam pattern. Path length variations and noise from amplifiers degrade the differential phase noise between the OPA channels, which is a key performance indicator that determines the far-field performance in terms of power in the main lobe, extinction of side lobes and pointing error. Conventionally, in fiber-based platforms, multiple phase locked loops are required to reduce the differential phase noise by locking the channels.In this work, we investigate the differential phase noise in an InP active OPA and demonstrate less than 10 mrad differential phase noise corresponding to a stability better than λ/600. To the best of our knowledge, this is the first demonstration of low differential phase noise in an active OPA with amplification in a photonic integrated platform. This result enables on-chip OPA amplification in the InP platform without active locking, thus reducing the system complexity and power consumption.

AB - Optical phased arrays (OPAs) are key enablers for light detection and ranging (LiDAR) in autonomous vehicles, free space optical communications, imaging and coherent beam combining. Active OPAs (with amplitude and phase control) allow the control of individual channel gains along with phases for enhanced control of far-field beam pattern. Path length variations and noise from amplifiers degrade the differential phase noise between the OPA channels, which is a key performance indicator that determines the far-field performance in terms of power in the main lobe, extinction of side lobes and pointing error. Conventionally, in fiber-based platforms, multiple phase locked loops are required to reduce the differential phase noise by locking the channels.In this work, we investigate the differential phase noise in an InP active OPA and demonstrate less than 10 mrad differential phase noise corresponding to a stability better than λ/600. To the best of our knowledge, this is the first demonstration of low differential phase noise in an active OPA with amplification in a photonic integrated platform. This result enables on-chip OPA amplification in the InP platform without active locking, thus reducing the system complexity and power consumption.

KW - optical phased array

KW - differential phase noise

KW - LiDAR

KW - indium phosphide (InP)

KW - photonic integrated circuit (PIC)

M3 - Conference contribution

BT - Proceedings of the 26th annual Symposium of the IEEE Photonics Benelux Chapter 2022

CY - Eindhoven

T2 - 26th Annual Symposium of the IEEE Photonics Benelux Chapter

Y2 - 24 November 2022 through 25 November 2022

ER -

Demonstration of low differential phase noise for optical phased arrays with optical amplification

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