Integrated visible-light liquid-crystal-based phase modulators

Milica Notaros; Thomas Dyer; Manan Raval; Christopher Baiocco; Jelena Notaros; Michael R. Watts

doi:10.1364/OE.454494

Integrated visible-light liquid-crystal-based phase modulators

Milica Notaros
, Thomas Dyer
, Manan Raval
, Christopher Baiocco
, Jelena Notaros
, Michael R. Watts

NY Creates Research Foundation

NY Creates

Massachusetts Institute of Technology
SUNY Polytechnic Institute

Research output: Contribution to journal › Article › peer-review

59 Scopus citations

Abstract

In this work, an integrated liquid-crystal-based phase modulator operating at visible wavelengths was developed and experimentally demonstrated. A visible-light silicon-nitride-based 300-mm-wafer foundry platform and a liquid-crystal integration process were developed to leverage the birefringence of liquid crystal to actively tune the effective index of a section of silicon-nitride waveguide and induce a phase shift over its length. The device was experimentally shown to achieve a 41π phase shift within 4.8 V_pp for a 500-µm-long modulator, which means that a 2π phase shifter would need to be only 24.4 µm long. This device is a compact and low-power solution to the challenge of integrated phase modulation in silicon nitride and paves the way for future low-power small-form-factor integrated systems at visible wavelengths.

Original language	English
Pages (from-to)	13790-13801
Number of pages	12
Journal	Optics Express
Volume	30
Issue number	8
DOIs	https://doi.org/10.1364/OE.454494
State	Published - Apr 11 2022

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title = "Integrated visible-light liquid-crystal-based phase modulators",

abstract = "In this work, an integrated liquid-crystal-based phase modulator operating at visible wavelengths was developed and experimentally demonstrated. A visible-light silicon-nitride-based 300-mm-wafer foundry platform and a liquid-crystal integration process were developed to leverage the birefringence of liquid crystal to actively tune the effective index of a section of silicon-nitride waveguide and induce a phase shift over its length. The device was experimentally shown to achieve a 41π phase shift within 4.8 Vpp for a 500-µm-long modulator, which means that a 2π phase shifter would need to be only 24.4 µm long. This device is a compact and low-power solution to the challenge of integrated phase modulation in silicon nitride and paves the way for future low-power small-form-factor integrated systems at visible wavelengths.",

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T1 - Integrated visible-light liquid-crystal-based phase modulators

AU - Notaros, Milica

AU - Dyer, Thomas

AU - Raval, Manan

AU - Baiocco, Christopher

AU - Notaros, Jelena

AU - Watts, Michael R.

PY - 2022/4/11

Y1 - 2022/4/11

N2 - In this work, an integrated liquid-crystal-based phase modulator operating at visible wavelengths was developed and experimentally demonstrated. A visible-light silicon-nitride-based 300-mm-wafer foundry platform and a liquid-crystal integration process were developed to leverage the birefringence of liquid crystal to actively tune the effective index of a section of silicon-nitride waveguide and induce a phase shift over its length. The device was experimentally shown to achieve a 41π phase shift within 4.8 Vpp for a 500-µm-long modulator, which means that a 2π phase shifter would need to be only 24.4 µm long. This device is a compact and low-power solution to the challenge of integrated phase modulation in silicon nitride and paves the way for future low-power small-form-factor integrated systems at visible wavelengths.

AB - In this work, an integrated liquid-crystal-based phase modulator operating at visible wavelengths was developed and experimentally demonstrated. A visible-light silicon-nitride-based 300-mm-wafer foundry platform and a liquid-crystal integration process were developed to leverage the birefringence of liquid crystal to actively tune the effective index of a section of silicon-nitride waveguide and induce a phase shift over its length. The device was experimentally shown to achieve a 41π phase shift within 4.8 Vpp for a 500-µm-long modulator, which means that a 2π phase shifter would need to be only 24.4 µm long. This device is a compact and low-power solution to the challenge of integrated phase modulation in silicon nitride and paves the way for future low-power small-form-factor integrated systems at visible wavelengths.

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DO - 10.1364/OE.454494

M3 - Article

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SN - 1094-4087

VL - 30

SP - 13790

EP - 13801

JO - Optics Express

JF - Optics Express

IS - 8

ER -

Integrated visible-light liquid-crystal-based phase modulators

Abstract

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