Widely Tunable 2.6 μm GaSb Diode Lasers Utilizing Diffraction Gratings or Silicon Photonics Reflectors

Samu-Pekka Ojanen; Jukka Viheriälä; Matteo Cherchi; Nouman Zia; Eero Koivusalo; Pentti Karioja; Mircea Guina

Abstract

We present two tunable extended cavity laserconfigurationsemitting around 2.6 μm. The gain is provided by a type-I GaSb-based quantum well heterostructure. To demonstrate the high power andbroad tuning capabilities of the gain material, an extendedcavity laser based on feedback via a diffraction grating is demonstrated.Tuning range of 154 nm, with an average output power of ~10 mW at 2.63 μm, corresponding toa peak power of ~100 mW, is demonstrated. For a more compact and integrable configuration, we demonstrate an extended cavity laser utilizing silicon photonics resonators, where the feedback and tuning is obtained via Vernier effect between two microring resonators. Here, atuning range of ~70 nm, with anaverage output power of ~1 mW at 2.55 μm, corresponding to a peak power of ~10 mW, are demonstrated.

Original language	English
Publication status	Published - 22 Jun 2020
Publication type	Not Eligible
Event	European Conference on Integrated Optics 2020 - Paris-Saclay University, Paris, France Duration: 23 Jun 2020 → 24 Jun 2020

Conference

Conference	European Conference on Integrated Optics 2020
Abbreviated title	ECIO 2020
Country/Territory	France
City	Paris
Period	23/06/20 → 24/06/20

Keywords

integrated optics
silicon photonics
tunable laser
Mid-IR integrated optics
Mid-IR light sources

Access to Document

https://www.ecio-conference.org/wp-content/uploads/2020/06/4-Samu-Pekka-Ojanen-Widely-Tunable-2.6-%CE%BCm-GaSbDiode-Lasers-UtilizingDiffraction-Gratings-or-Silicon-Photonics-Reflectors-ecio-2020.pdf

Cite this

Ojanen, S.-P., Viheriälä, J., Cherchi, M., Zia, N., Koivusalo, E., Karioja, P., & Guina, M. (2020). Widely Tunable 2.6 μm GaSb Diode Lasers Utilizing Diffraction Gratings or Silicon Photonics Reflectors. Abstract from European Conference on Integrated Optics 2020, Paris, France. https://www.ecio-conference.org/wp-content/uploads/2020/06/4-Samu-Pekka-Ojanen-Widely-Tunable-2.6-%CE%BCm-GaSbDiode-Lasers-UtilizingDiffraction-Gratings-or-Silicon-Photonics-Reflectors-ecio-2020.pdf

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abstract = "We present two tunable extended cavity laserconfigurationsemitting around 2.6 μm. The gain is provided by a type-I GaSb-based quantum well heterostructure. To demonstrate the high power andbroad tuning capabilities of the gain material, an extendedcavity laser based on feedback via a diffraction grating is demonstrated.Tuning range of 154 nm, with an average output power of ~10 mW at 2.63 μm, corresponding toa peak power of ~100 mW, is demonstrated. For a more compact and integrable configuration, we demonstrate an extended cavity laser utilizing silicon photonics resonators, where the feedback and tuning is obtained via Vernier effect between two microring resonators. Here, atuning range of ~70 nm, with anaverage output power of ~1 mW at 2.55 μm, corresponding to a peak power of ~10 mW, are demonstrated.",

keywords = "integrated optics, silicon photonics, tunable laser, Mid-IR integrated optics, Mid-IR light sources",

author = "Samu-Pekka Ojanen and Jukka Viheri{\"a}l{\"a} and Matteo Cherchi and Nouman Zia and Eero Koivusalo and Pentti Karioja and Mircea Guina",

year = "2020",

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day = "22",

language = "English",

note = "European Conference on Integrated Optics 2020, ECIO 2020 ; Conference date: 23-06-2020 Through 24-06-2020",

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Ojanen, S-P , Viheriälä, J, Cherchi, M, Zia, N , Koivusalo, E, Karioja, P & Guina, M 2020, 'Widely Tunable 2.6 μm GaSb Diode Lasers Utilizing Diffraction Gratings or Silicon Photonics Reflectors', European Conference on Integrated Optics 2020, Paris, France, 23/06/20 - 24/06/20. <https://www.ecio-conference.org/wp-content/uploads/2020/06/4-Samu-Pekka-Ojanen-Widely-Tunable-2.6-%CE%BCm-GaSbDiode-Lasers-UtilizingDiffraction-Gratings-or-Silicon-Photonics-Reflectors-ecio-2020.pdf>

TY - CONF

T1 - Widely Tunable 2.6 μm GaSb Diode Lasers Utilizing Diffraction Gratings or Silicon Photonics Reflectors

AU - Ojanen, Samu-Pekka

AU - Viheriälä, Jukka

AU - Cherchi, Matteo

AU - Zia, Nouman

AU - Koivusalo, Eero

AU - Karioja, Pentti

AU - Guina, Mircea

PY - 2020/6/22

Y1 - 2020/6/22

N2 - We present two tunable extended cavity laserconfigurationsemitting around 2.6 μm. The gain is provided by a type-I GaSb-based quantum well heterostructure. To demonstrate the high power andbroad tuning capabilities of the gain material, an extendedcavity laser based on feedback via a diffraction grating is demonstrated.Tuning range of 154 nm, with an average output power of ~10 mW at 2.63 μm, corresponding toa peak power of ~100 mW, is demonstrated. For a more compact and integrable configuration, we demonstrate an extended cavity laser utilizing silicon photonics resonators, where the feedback and tuning is obtained via Vernier effect between two microring resonators. Here, atuning range of ~70 nm, with anaverage output power of ~1 mW at 2.55 μm, corresponding to a peak power of ~10 mW, are demonstrated.

AB - We present two tunable extended cavity laserconfigurationsemitting around 2.6 μm. The gain is provided by a type-I GaSb-based quantum well heterostructure. To demonstrate the high power andbroad tuning capabilities of the gain material, an extendedcavity laser based on feedback via a diffraction grating is demonstrated.Tuning range of 154 nm, with an average output power of ~10 mW at 2.63 μm, corresponding toa peak power of ~100 mW, is demonstrated. For a more compact and integrable configuration, we demonstrate an extended cavity laser utilizing silicon photonics resonators, where the feedback and tuning is obtained via Vernier effect between two microring resonators. Here, atuning range of ~70 nm, with anaverage output power of ~1 mW at 2.55 μm, corresponding to a peak power of ~10 mW, are demonstrated.

KW - integrated optics

KW - silicon photonics

KW - tunable laser

KW - Mid-IR integrated optics

KW - Mid-IR light sources

M3 - Abstract

T2 - European Conference on Integrated Optics 2020

Y2 - 23 June 2020 through 24 June 2020

ER -