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Main Authors: Farrag, Amr, Flatae, Assegid M., Stott, Lenorah M., Jagatti, Alessandro, Lapini, Andrea, Möncke, Doris, Agio, Mario
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.17493
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author Farrag, Amr
Flatae, Assegid M.
Stott, Lenorah M.
Jagatti, Alessandro
Lapini, Andrea
Möncke, Doris
Agio, Mario
author_facet Farrag, Amr
Flatae, Assegid M.
Stott, Lenorah M.
Jagatti, Alessandro
Lapini, Andrea
Möncke, Doris
Agio, Mario
contents Efficient detection of ultrafast phenomena is central to modern optical sciences, driving advances in quantum science and technology, physical chemistry, and nanophotonics. When processes occur on sub-picosecond timescales, time-resolved methods such as transient absorption, up-conversion, and optical Kerr gating (OKG) can be utilized to probe these dynamics, though they are typically applied to ensembles rather than single emitters. The OKG technique offers high detection efficiency over a broad spectral range, making it particularly promising for ultrafast single-photon detection at high-repetition-rates. Here, we present an ultrafast scheme based on the third-order nonlinearity of bismuth borosilicate (BBS) glass, operating at a 1 GHz repetition rate with less than 1 nJ pulse energy under focusing, and achieving a time resolution down to 175 fs. BBS glass was selected for its high nonlinear coefficient, which enhances detection efficiency, sub-ps response time, and its compatibility with standard microscopy platforms.
format Preprint
id arxiv_https___arxiv_org_abs_2511_17493
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Ultrafast optical Kerr Gate at 1 GHz repetition rate by focusing on BBS glass
Farrag, Amr
Flatae, Assegid M.
Stott, Lenorah M.
Jagatti, Alessandro
Lapini, Andrea
Möncke, Doris
Agio, Mario
Optics
Efficient detection of ultrafast phenomena is central to modern optical sciences, driving advances in quantum science and technology, physical chemistry, and nanophotonics. When processes occur on sub-picosecond timescales, time-resolved methods such as transient absorption, up-conversion, and optical Kerr gating (OKG) can be utilized to probe these dynamics, though they are typically applied to ensembles rather than single emitters. The OKG technique offers high detection efficiency over a broad spectral range, making it particularly promising for ultrafast single-photon detection at high-repetition-rates. Here, we present an ultrafast scheme based on the third-order nonlinearity of bismuth borosilicate (BBS) glass, operating at a 1 GHz repetition rate with less than 1 nJ pulse energy under focusing, and achieving a time resolution down to 175 fs. BBS glass was selected for its high nonlinear coefficient, which enhances detection efficiency, sub-ps response time, and its compatibility with standard microscopy platforms.
title Ultrafast optical Kerr Gate at 1 GHz repetition rate by focusing on BBS glass
topic Optics
url https://arxiv.org/abs/2511.17493