Flip-chip integration of tilted VCSELs onto a silicon photonic integrated circuit

Huihui Lu; Jun Su Lee; Yan Zhao; Carmelo Scarcella; Paolo Cardile; Aidan Daly; Markus Ortsiefer; Lee Carroll; Peter O'Brien

doi:10.1364/OE.24.016258

Flip-chip integration of tilted VCSELs onto a silicon photonic integrated circuit

Huihui Lu
, Jun Su Lee
, Yan Zhao
, Carmelo Scarcella
, Paolo Cardile
, Aidan Daly
, Markus Ortsiefer
, Lee Carroll
, Peter O'Brien

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

Abstract

In this article we describe a cost-effective approach for hybrid laser integration, in which vertical cavity surface emitting lasers (VCSELs) are passively-aligned and flip-chip bonded to a Si photonic integrated circuit (PIC), with a tilt-angle optimized for optical-insertion into standard grating-couplers. A tilt-angle of 10° is achieved by controlling the reflow of the solder ball deposition used for the electrical-contacting and mechanical-bonding of the VCSEL to the PIC. After flip-chip integration, the VCSEL-to-PIC insertion loss is -11.8 dB, indicating an excess coupling penalty of -5.9 dB, compared to Fibre-to-PIC coupling. Finite difference time domain simulations indicate that the penalty arises from the relatively poor match between the VCSEL mode and the grating-coupler.

Original language	English
Pages (from-to)	16258-16266
Number of pages	9
Journal	Optics Express
Volume	24
Issue number	15
DOIs	https://doi.org/10.1364/OE.24.016258
Publication status	Published - 25 Jul 2016

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title = "Flip-chip integration of tilted VCSELs onto a silicon photonic integrated circuit",

abstract = "In this article we describe a cost-effective approach for hybrid laser integration, in which vertical cavity surface emitting lasers (VCSELs) are passively-aligned and flip-chip bonded to a Si photonic integrated circuit (PIC), with a tilt-angle optimized for optical-insertion into standard grating-couplers. A tilt-angle of 10° is achieved by controlling the reflow of the solder ball deposition used for the electrical-contacting and mechanical-bonding of the VCSEL to the PIC. After flip-chip integration, the VCSEL-to-PIC insertion loss is -11.8 dB, indicating an excess coupling penalty of -5.9 dB, compared to Fibre-to-PIC coupling. Finite difference time domain simulations indicate that the penalty arises from the relatively poor match between the VCSEL mode and the grating-coupler.",

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AU - Lu, Huihui

AU - Lee, Jun Su

AU - Zhao, Yan

AU - Scarcella, Carmelo

AU - Cardile, Paolo

AU - Daly, Aidan

AU - Ortsiefer, Markus

AU - Carroll, Lee

AU - O'Brien, Peter

PY - 2016/7/25

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N2 - In this article we describe a cost-effective approach for hybrid laser integration, in which vertical cavity surface emitting lasers (VCSELs) are passively-aligned and flip-chip bonded to a Si photonic integrated circuit (PIC), with a tilt-angle optimized for optical-insertion into standard grating-couplers. A tilt-angle of 10° is achieved by controlling the reflow of the solder ball deposition used for the electrical-contacting and mechanical-bonding of the VCSEL to the PIC. After flip-chip integration, the VCSEL-to-PIC insertion loss is -11.8 dB, indicating an excess coupling penalty of -5.9 dB, compared to Fibre-to-PIC coupling. Finite difference time domain simulations indicate that the penalty arises from the relatively poor match between the VCSEL mode and the grating-coupler.

AB - In this article we describe a cost-effective approach for hybrid laser integration, in which vertical cavity surface emitting lasers (VCSELs) are passively-aligned and flip-chip bonded to a Si photonic integrated circuit (PIC), with a tilt-angle optimized for optical-insertion into standard grating-couplers. A tilt-angle of 10° is achieved by controlling the reflow of the solder ball deposition used for the electrical-contacting and mechanical-bonding of the VCSEL to the PIC. After flip-chip integration, the VCSEL-to-PIC insertion loss is -11.8 dB, indicating an excess coupling penalty of -5.9 dB, compared to Fibre-to-PIC coupling. Finite difference time domain simulations indicate that the penalty arises from the relatively poor match between the VCSEL mode and the grating-coupler.

UR - https://www.scopus.com/pages/publications/84979529305

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JO - Optics Express

JF - Optics Express

IS - 15

ER -

Flip-chip integration of tilted VCSELs onto a silicon photonic integrated circuit

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