Thin photosensitive layer of As2S3 sandwiched in between a-Si core and negative thermo-optic polymer over-cladding enables trimming of athermal rings. Exposure to visible light can shift their resonances by 195GHz at trimming rates around 1GHz/min
In this contribution we present a new and efficient technique for post-fabrication trimming of chalc...
Athermal silicon ring resonators are experimentally demonstrated by overlaying a polymer cladding on...
Athermal silicon ring resonators are experimentally demonstrated by overlaying a polymer cladding on...
Thin photosensitive layer of As2S3 sandwiched in between a-Si core and negative thermo-optic polymer...
Thin photosensitive layer of As2S3 sandwiched in between a-Si core and negative thermo-optic polymer...
Sandwiching a photosensitive layer of As2S3 between Si core and polymer cladding enables trimming of...
Sandwiching a photosensitive layer of As2S3 between Si core and polymer cladding enables trimming of...
Sandwiching a photosensitive layer of As2S3 between Si core and polymer cladding enables trimming of...
We experimentally demonstrate the post-fabrication trimming of polymer-coated athermal silicon waveg...
We experimentally demonstrate the post-fabrication trimming of polymer-coated athermal silicon waveg...
We demonstrate athermal amorphous Si (a-Si) ring resonators using a top polymer cladding. We observe...
We experimentally demonstrate the post-fabrication trimming of polymer-coated athermal silicon waveg...
We experimentally demonstrate the post-fabrication trimming of polymer-coated athermal silicon waveg...
We experimentally demonstrate the post-fabrication trimming of polymer-coated athermal silicon waveg...
In this contribution we present a new and efficient technique for post-fabrication trimming of chalc...
In this contribution we present a new and efficient technique for post-fabrication trimming of chalc...
Athermal silicon ring resonators are experimentally demonstrated by overlaying a polymer cladding on...
Athermal silicon ring resonators are experimentally demonstrated by overlaying a polymer cladding on...
Thin photosensitive layer of As2S3 sandwiched in between a-Si core and negative thermo-optic polymer...
Thin photosensitive layer of As2S3 sandwiched in between a-Si core and negative thermo-optic polymer...
Sandwiching a photosensitive layer of As2S3 between Si core and polymer cladding enables trimming of...
Sandwiching a photosensitive layer of As2S3 between Si core and polymer cladding enables trimming of...
Sandwiching a photosensitive layer of As2S3 between Si core and polymer cladding enables trimming of...
We experimentally demonstrate the post-fabrication trimming of polymer-coated athermal silicon waveg...
We experimentally demonstrate the post-fabrication trimming of polymer-coated athermal silicon waveg...
We demonstrate athermal amorphous Si (a-Si) ring resonators using a top polymer cladding. We observe...
We experimentally demonstrate the post-fabrication trimming of polymer-coated athermal silicon waveg...
We experimentally demonstrate the post-fabrication trimming of polymer-coated athermal silicon waveg...
We experimentally demonstrate the post-fabrication trimming of polymer-coated athermal silicon waveg...
In this contribution we present a new and efficient technique for post-fabrication trimming of chalc...
In this contribution we present a new and efficient technique for post-fabrication trimming of chalc...
Athermal silicon ring resonators are experimentally demonstrated by overlaying a polymer cladding on...
Athermal silicon ring resonators are experimentally demonstrated by overlaying a polymer cladding on...
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