使用半导体和超导技术从真空紫外线到短波长红外的光子计数

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使用半导体和超导技术从真空紫外线到短波长红外的光子计数

Photon counting from the vacuum ultraviolet to the short wavelength infrared using semiconductor and superconducting technologies

论文作者

Asaadi, Jonathan, Baxter, Dan, Berggren, Karl K., Braga, Davide, Charlebois, Serge A., Chang, Clarence, Dragone, Angelo, Drlica-Wagner, Alex, Escobar, Carlos O., Estrada, Juan, Fahim, Farah, Febbraro, Michael, Moroni, Guillermo Fernandez, Holland, Stephen, Hossbach, Todd, Koppell, Stewart, Leitz, Christopher, Magnoni, Agustina, Mazin, Benjamin A., Pratte, Jean-François, Rauscher, Bernie, Rodrigues, Dario, Shen, Lingjia, Sofo-Haro, Miguel, Tiffenberg, Javier, Turner, Joshua, Rota, Lorenzo, Kenney, Christopher J., Vachon, Frédéric, Wang, Gensheng

论文摘要

在过去的十年中，已经开发了几种光子计数技术，为低光子数制度的实验打开了一个新窗口。 HEP中的一些持续和未来的项目受益于这些发展，这在HEP之外也会产生巨大影响。在接下来的十年中，有明显的技术机会可以充分开发这些传感器并在HEP中产生巨大的影响。在这份白皮书中，我们讨论了未来项目中光子计数技术的需求，并提供了一些解决这些需求的技术机会。

In the last decade, several photon counting technologies have been developed opening a new window for experiments in the low photon number regime. Several ongoing and future projects in HEP benefit from these developments, which will also have a large impact outside HEP. During the next decade there is a clear technological opportunity to fully develop these sensors and produce a large impact in HEP. In this white paper we discuss the need for photon counting technologies in future projects, and present some technological opportunities to address those needs.

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