A path towards attojoule cryogenic communication

Matteo Cherchi; Emma Mykkänen; Antti Kemppinen; Kirsi Tappura; Joonas Govenius; Mika Prunnila; Giovanni Delrosso; Teemu Hakkarainen; Jukka Viheriälä; Mario Castañeda; Mark Bieler; Stephan Steinhauer; Val Zwiller; Stefan M. Koepfli; Juerg Leuthold; Eva De Leo

European Conference on Optical Communication (ECOC) 2022
Technical Digest Series (Optica Publishing Group, 2022),
paper Mo4G.3

A path towards attojoule cryogenic communication

Matteo Cherchi, Emma Mykkänen, Antti Kemppinen, Kirsi Tappura, Joonas Govenius, Mika Prunnila, Giovanni Delrosso, Teemu Hakkarainen, Jukka Viheriälä, Mario Castañeda, Mark Bieler, Stephan Steinhauer, Val Zwiller, Stefan M. Koepfli, Juerg Leuthold, and Eva De Leo

European Conference and Exhibition on Optical Communication 2022

Basel Switzerland
18–22 September 2022
ISBN: 978-1-957171-15-9

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Novel Photonic Platforms and Sources I (Mo4G)

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M. Cherchi, E. Mykkänen, A. Kemppinen, K. Tappura, J. Govenius, M. Prunnila, G. Delrosso, T. Hakkarainen, J. Viheriälä, M. Castañeda, M. Bieler, S. Steinhauer, V. Zwiller, S. M. Koepfli, J. Leuthold, and E. De Leo, "A path towards attojoule cryogenic communication," in European Conference on Optical Communication (ECOC) 2022, J. Leuthold, C. Harder, B. Offrein, and H. Limberger, eds., Technical Digest Series (Optica Publishing Group, 2022), paper Mo4G.3.

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Abstract

Photonic integration technologies are key to scale-up superconducting quantum computers. Here, we identify suitable classical optical links to control and read out the qubits in cryostats and resolve the power dissipation issue of superconducting computing platforms. Recent results and future solutions are shown.

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