Overcoming optical‐electrical grid design trade‐offs for cm²‐sized high‐power GaAs photonic power converters by plating technology

Abstract: The optimization of III‐V‐based photovoltaic cells involves addressing the trade‐off between optical losses due to grid shading and electrical losses due to series resistance. In this work, we overcome the boundary conditions of this optimization problem by increasing the grid line height. Contrary to a few micrometer high evaporated metal grid lines, distributed circuit modeling of 1‐cm2 GaAs photonic power converters suggests that 15‐μm high grid lines yield the best performances, especially for high‐current… Show more

“…They have been productized for the 1450-1550 nm spectral range and also for cryogenic applications at ~1470 nm or ~808 nm [31][32][33][34]. Furthermore, the unrelenting developments in the field of photovoltaic devices further promise additional LPC device opportunities [35][36][37][38][39][40][41][42][43].…”

Demonstration of Power-over-Fiber with Watts of Output Power Capabilities over Kilometers or at Cryogenic Temperatures

“…They have been productized for the 1450-1550 nm spectral range and also for cryogenic applications at ~1470 nm or ~808 nm [31][32][33][34]. Furthermore, the unrelenting developments in the field of photovoltaic devices further promise additional LPC device opportunities [35][36][37][38][39][40][41][42][43].…”

Demonstration of Power-over-Fiber with Watts of Output Power Capabilities over Kilometers or at Cryogenic Temperatures