Publication:

Degradation Mechanisms of Monolithic GaAs-on-Si Nano-Ridge Quantum Well Lasers

Date

2025
Journal article
https://doi.org/10.1109/JLT.2025.3557373
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dc.contributor.authorHsieh, Ping-Yi
dc.contributor.authorTsiara, Artemisia
dc.contributor.authorO'Sullivan, Barry
dc.contributor.authorMankala Ramakrishna Sharma, Anjanashree
dc.contributor.authorCoenen, David
dc.contributor.authorYudistira, Didit
dc.contributor.authorKunert, Bernardette
dc.contributor.authorVan Campenhout, Joris
dc.contributor.authorDe Wolf, Ingrid
dc.contributor.imecauthorHsieh, Ping-Yi
dc.contributor.imecauthorTsiara, Artemisia
dc.contributor.imecauthorO'Sullivan, Barry
dc.contributor.imecauthorSharma, Anjanashree M. R.
dc.contributor.imecauthorCoenen, David
dc.contributor.imecauthorYudistira, Didit
dc.contributor.imecauthorKunert, Bernardette
dc.contributor.imecauthorVan Campenhout, Joris
dc.contributor.imecauthorDe Wolf, Ingrid
dc.contributor.orcidimecHsieh, Ping-Yi::0000-0003-4173-3799
dc.contributor.orcidimecTsiara, Artemisia::0000-0002-5612-6468
dc.contributor.orcidimecO'Sullivan, Barry::0000-0002-9036-8241
dc.contributor.orcidimecCoenen, David::0000-0002-3732-1874
dc.contributor.orcidimecYudistira, Didit::0000-0003-1440-5407
dc.contributor.orcidimecKunert, Bernardette::0000-0002-8986-4109
dc.contributor.orcidimecVan Campenhout, Joris::0000-0003-0778-2669
dc.contributor.orcidimecDe Wolf, Ingrid::0000-0003-3822-5953
dc.date.accessioned2025-06-10T04:21:27Z
dc.date.available2025-06-10T04:21:27Z
dc.date.issued2025
dc.description.abstractThis work investigates the reliability of a recent demonstration of the III-V laser fully fabricated in imec's 300 mm CMOS pilot line. A two-phase optical degradation is disclosed in such monolithic GaAs-on-Si nano-ridge quantum well lasers. Constant current aging tests reveal a gradual drift of the laser threshold current in phase I, which is attributed to the diffusion of impurities into quantum wells, resulting in a decrease of the non-radiative carrier lifetime. Subsequently, the high current density at metal/p-GaAs contacts induces an abrupt laser failure in phase II. Failure analysis on a device after 1000 h of electrical stress at room temperature reveals elemental interdiffusion in the GaAs nano-ridge under a p-contact plug, eventually punching through the quantum well, creating a leakage current path and inducing a diode breakdown. Detected failure modes are extrinsic and can be alleviated by dedicated contact and nano-ridge engineering (NRE). On the other hand, there is no evidence of recombination-enhanced dislocation reactions taking place close to the GaAs/Si interface, proving the successful confinement of misfit defects using high-aspect oxide trenches. The result sheds light on achieving reliable monolithic lasers for silicon photonics in high-bandwidth datacom applications.
dc.description.wosFundingTextThis work was supported by imec's industry-affiliation R&D program on "Optical I/O". (Corresponding author: Ping-fi Hsieh.)
dc.identifier.doi10.1109/JLT.2025.3557373
dc.identifier.issn0733-8724
dc.identifier.urihttps://imec-publications.be/handle/20.500.12860/45784
dc.publisherIEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
dc.source.beginpage5811
dc.source.endpage5819
dc.source.issue12
dc.source.journalJOURNAL OF LIGHTWAVE TECHNOLOGY
dc.source.numberofpages9
dc.source.volume43
dc.subject.keywordsCONTINUOUS-WAVE OPERATION
dc.subject.keywordsDOT LASERS
dc.subject.keywordsDIODE-LASERS
dc.subject.keywordsGAAS/ALGAAS
dc.subject.keywordsRELIABILITY
dc.subject.keywordsTECHNOLOGY
dc.subject.keywordsLIFETIME
dc.subject.keywordsPLATFORM
dc.title

Degradation Mechanisms of Monolithic GaAs-on-Si Nano-Ridge Quantum Well Lasers

dc.typeJournal article
dspace.entity.typePublication
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