Densely packed 1.1 μm band vertical cavity surface emitting laser array for co-packaged optics

Liang Dong; Xiaodong Gu; Shanting Hu; Fumio Koyama

doi:10.35848/1347-4065/ac64e3

Densely packed 1.1 μm band vertical cavity surface emitting laser array for co-packaged optics

Liang Dong^*, Xiaodong Gu, Shanting Hu, Fumio Koyama

^*Corresponding author for this work

School of Information and Electronics

Tokyo Institute of Technology

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

1 Citation (Scopus)

Abstract

We demonstrated the 1.1 μm band 16-channel vertical cavity surface emitting laser (VCSEL) array for multi-core fiber (MCF) transmission towards co-packaged optics. Single-mode 16-ch top and bottom emitting VCSEL arrays were fabricated by either 3 inch or 6 inch wafer foundry process. The thermal crosstalk is estimated by wavelength shift. When the distance between adjacent VCSELs is 40 μm, the total thermal crosstalk is as low as 7 K. Bottom emitting metal-aperture VCSEL array were also fabricated via a full 3 inch wafer process. It shows low resistance and good single mode characteristic with an oxidation aperture of 7 μm thanks to an intra-cavity metal aperture. A large mode field diameter of 6 μm enables low coupling loss between bottom VCSEL array and MCF through a GaAs substrate for a flip-chip bonding process.

Original language	English
Article number	SK1011
Journal	Japanese Journal of Applied Physics, Part 1: Regular Papers and Short Notes and Review Papers
Volume	61
Issue number	SK
DOIs	https://doi.org/10.35848/1347-4065/ac64e3
Publication status	Published - 1 Aug 2022

Keywords

Co-packaged optics
VCSEL
VCSEL array
multi-core fiber

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10.35848/1347-4065/ac64e3

Cite this

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title = "Densely packed 1.1 μm band vertical cavity surface emitting laser array for co-packaged optics",

abstract = "We demonstrated the 1.1 μm band 16-channel vertical cavity surface emitting laser (VCSEL) array for multi-core fiber (MCF) transmission towards co-packaged optics. Single-mode 16-ch top and bottom emitting VCSEL arrays were fabricated by either 3 inch or 6 inch wafer foundry process. The thermal crosstalk is estimated by wavelength shift. When the distance between adjacent VCSELs is 40 μm, the total thermal crosstalk is as low as 7 K. Bottom emitting metal-aperture VCSEL array were also fabricated via a full 3 inch wafer process. It shows low resistance and good single mode characteristic with an oxidation aperture of 7 μm thanks to an intra-cavity metal aperture. A large mode field diameter of 6 μm enables low coupling loss between bottom VCSEL array and MCF through a GaAs substrate for a flip-chip bonding process.",

keywords = "Co-packaged optics, VCSEL, VCSEL array, multi-core fiber",

author = "Liang Dong and Xiaodong Gu and Shanting Hu and Fumio Koyama",

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T1 - Densely packed 1.1 μm band vertical cavity surface emitting laser array for co-packaged optics

AU - Dong, Liang

AU - Gu, Xiaodong

AU - Hu, Shanting

AU - Koyama, Fumio

PY - 2022/8/1

Y1 - 2022/8/1

N2 - We demonstrated the 1.1 μm band 16-channel vertical cavity surface emitting laser (VCSEL) array for multi-core fiber (MCF) transmission towards co-packaged optics. Single-mode 16-ch top and bottom emitting VCSEL arrays were fabricated by either 3 inch or 6 inch wafer foundry process. The thermal crosstalk is estimated by wavelength shift. When the distance between adjacent VCSELs is 40 μm, the total thermal crosstalk is as low as 7 K. Bottom emitting metal-aperture VCSEL array were also fabricated via a full 3 inch wafer process. It shows low resistance and good single mode characteristic with an oxidation aperture of 7 μm thanks to an intra-cavity metal aperture. A large mode field diameter of 6 μm enables low coupling loss between bottom VCSEL array and MCF through a GaAs substrate for a flip-chip bonding process.

AB - We demonstrated the 1.1 μm band 16-channel vertical cavity surface emitting laser (VCSEL) array for multi-core fiber (MCF) transmission towards co-packaged optics. Single-mode 16-ch top and bottom emitting VCSEL arrays were fabricated by either 3 inch or 6 inch wafer foundry process. The thermal crosstalk is estimated by wavelength shift. When the distance between adjacent VCSELs is 40 μm, the total thermal crosstalk is as low as 7 K. Bottom emitting metal-aperture VCSEL array were also fabricated via a full 3 inch wafer process. It shows low resistance and good single mode characteristic with an oxidation aperture of 7 μm thanks to an intra-cavity metal aperture. A large mode field diameter of 6 μm enables low coupling loss between bottom VCSEL array and MCF through a GaAs substrate for a flip-chip bonding process.

KW - Co-packaged optics

KW - VCSEL

KW - VCSEL array

KW - multi-core fiber

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IS - SK

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ER -

Densely packed 1.1 μm band vertical cavity surface emitting laser array for co-packaged optics

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