Precision laser annealing of silicon devices for enhanced electro-optic performance

Bender, Daniel A.; DeRose, Christopher T.; Starbuck, Andrew; Verley, Jason C.; Jenkins, Mark W.

doi:10.1117/12.2037339

Cited by 2 publications

(1 citation statement)

References 4 publications

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“…However, there still will be variations from manufacturing. Post-tuning of the refractive index is an option to compensate for variations in manufacturing 115 . Then, the only question is whether the resonant shift variations that occur from two-photon absorption will be large enough to cause significant modulator increases in loss or decreases in extinction ratio.…”

Section: Electro-optic Modulators (Organic Polymers Lithium Niobate)mentioning

confidence: 99%

Trends in Microfabrication Capabilities & Device Architectures.

Bauer

Jones

Lentine

et al. 2015

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The last two decades have seen an explosion in worldwide R&D, enabling fundamentally new capabilities while at the same time changing the international technology landscape. The advent of technologies for continued miniaturization and electronics feature size reduction, and for architectural innovations, will have many technical, economic, and national security implications. It is important to anticipate possible microelectronics development directions and their implications on US national interests. This report forecasts and assesses trends and directions for several potentially disruptive microfabrication capabilities and device architectures that may emerge in the next 5-10 years.

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Section: Electro-optic Modulators (Organic Polymers Lithium Niobate)mentioning

confidence: 99%

Trends in Microfabrication Capabilities & Device Architectures.

Bauer

Jones

Lentine

et al. 2015

View full text Add to dashboard Cite

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Photometry, Centroid and Point-spread Function Measurements in the LSST Camera Focal Plane Using Artificial Stars

Esteves,

Utsumi,

Snyder

et al. 2023

PASP

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The Vera C. Rubin Observatory’s LSST Camera (LSSTCam) pixel response has been characterized using laboratory measurements with a grid of artificial stars. We quantify the contributions to photometry, centroid, point-spread function size, and shape measurement errors due to small anomalies in the LSSTCam CCDs. The main sources of those anomalies are quantum efficiency variations and pixel area variations induced by the amplifier segmentation boundaries and “tree-rings”—circular variations in silicon doping concentration. This laboratory study using artificial stars projected on the sensors shows overall small effects. The residual effects on point-spread function (PSF) size and shape are below 0.1%, meeting the ten-year LSST survey science requirements. However, the CCD mid-line presents distortions that can have a moderate impact on PSF measurements. This feature can be avoided by masking the affected regions. Effects of tree-rings are observed on centroids and PSFs of the artificial stars and the nature of the effect is confirmed by a study of the flat-field response. Nevertheless, further studies of the full-focal plane with stellar data should more completely probe variations and might reveal new features, e.g., wavelength-dependent effects. The results of this study can be used as a guide for the on-sky operation of LSSTCam.

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Precision laser annealing of silicon devices for enhanced electro-optic performance

Cited by 2 publications

References 4 publications

Trends in Microfabrication Capabilities & Device Architectures.

Trends in Microfabrication Capabilities & Device Architectures.

Photometry, Centroid and Point-spread Function Measurements in the LSST Camera Focal Plane Using Artificial Stars

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