Large and tunable optoelectronic chromatic dispersion in PIN-type photodiodes

Ayuushi Dutta; Egor Liokumovitch; Ziv Glaser; Shmuel Sternklar

doi:https://doi.org/10.1364/OL.519164

Large and tunable optoelectronic chromatic dispersion in PIN-type photodiodes

Ayuushi Dutta, Egor Liokumovitch, Ziv Glaser, Shmuel Sternklar

Ariel University

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

Abstract

It is known that PN-type photodiodes possess high optoelectronic chromatic dispersion (OED). Here we present a theoretical and experimental study of OED in PIN-type photodiodes. Applying the modulation phase-shift technique, a Ge PIN photodiode exhibits ∼0.5 deg/nm phase-shift sensitivity at 10 MHz modulation, corresponding to a dispersion of 1.4 × 10⁹ ps/(nm × km), many orders of magnitude larger than high-dispersion optical materials such as chalcogenide glass. A striking feature of the PIN device is the ability to tune the amount and sign of the OED through the bias voltage. Electronic tuning between −0.8 deg/nm and +0.5 deg/nm is shown. The PIN photodiode is an on-chip device possessing significant tunable dispersion for applications in optical sensing and spectroscopy.

Original language	English
Pages (from-to)	2057-2060
Number of pages	4
Journal	Optics Letters
Volume	49
Issue number	8
DOIs	https://doi.org/10.1364/OL.519164
State	Published - 15 Apr 2024

All Science Journal Classification (ASJC) codes

Atomic and Molecular Physics, and Optics

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title = "Large and tunable optoelectronic chromatic dispersion in PIN-type photodiodes",

abstract = "It is known that PN-type photodiodes possess high optoelectronic chromatic dispersion (OED). Here we present a theoretical and experimental study of OED in PIN-type photodiodes. Applying the modulation phase-shift technique, a Ge PIN photodiode exhibits ∼0.5 deg/nm phase-shift sensitivity at 10 MHz modulation, corresponding to a dispersion of 1.4 × 109 ps/(nm × km), many orders of magnitude larger than high-dispersion optical materials such as chalcogenide glass. A striking feature of the PIN device is the ability to tune the amount and sign of the OED through the bias voltage. Electronic tuning between −0.8 deg/nm and +0.5 deg/nm is shown. The PIN photodiode is an on-chip device possessing significant tunable dispersion for applications in optical sensing and spectroscopy.",

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T1 - Large and tunable optoelectronic chromatic dispersion in PIN-type photodiodes

AU - Dutta, Ayuushi

AU - Liokumovitch, Egor

AU - Glaser, Ziv

AU - Sternklar, Shmuel

PY - 2024/4/15

Y1 - 2024/4/15

N2 - It is known that PN-type photodiodes possess high optoelectronic chromatic dispersion (OED). Here we present a theoretical and experimental study of OED in PIN-type photodiodes. Applying the modulation phase-shift technique, a Ge PIN photodiode exhibits ∼0.5 deg/nm phase-shift sensitivity at 10 MHz modulation, corresponding to a dispersion of 1.4 × 109 ps/(nm × km), many orders of magnitude larger than high-dispersion optical materials such as chalcogenide glass. A striking feature of the PIN device is the ability to tune the amount and sign of the OED through the bias voltage. Electronic tuning between −0.8 deg/nm and +0.5 deg/nm is shown. The PIN photodiode is an on-chip device possessing significant tunable dispersion for applications in optical sensing and spectroscopy.

AB - It is known that PN-type photodiodes possess high optoelectronic chromatic dispersion (OED). Here we present a theoretical and experimental study of OED in PIN-type photodiodes. Applying the modulation phase-shift technique, a Ge PIN photodiode exhibits ∼0.5 deg/nm phase-shift sensitivity at 10 MHz modulation, corresponding to a dispersion of 1.4 × 109 ps/(nm × km), many orders of magnitude larger than high-dispersion optical materials such as chalcogenide glass. A striking feature of the PIN device is the ability to tune the amount and sign of the OED through the bias voltage. Electronic tuning between −0.8 deg/nm and +0.5 deg/nm is shown. The PIN photodiode is an on-chip device possessing significant tunable dispersion for applications in optical sensing and spectroscopy.

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DO - https://doi.org/10.1364/OL.519164

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JO - Optics Letters

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Large and tunable optoelectronic chromatic dispersion in PIN-type photodiodes

Abstract

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