Band-Structure Metamorphosis in Solids

Julia Anthea Gessner; Shunsuke Yamada; Florian Siegrist; Marcus Ossiander; Keyhan Golyari; Daniel Hahner; Volodymyr Pervak; Sangeeta Sharma; Kazuhiro Yabana; Martin Schultze; Ferenc Krausz

Band-Structure Metamorphosis in Solids

Julia Anthea Gessner^*, Shunsuke Yamada, Florian Siegrist, Marcus Ossiander, Keyhan Golyari, Daniel Hahner, Volodymyr Pervak, Sangeeta Sharma, Kazuhiro Yabana, Martin Schultze, Ferenc Krausz

^*Korrespondierende/r Autor/-in für diese Arbeit

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Abstract

Our real-time study of nonlinearities in solids demonstrates that ultrafast light fields can transform nickel from a conducting to a semiconducting material, while silicon can be turned from an indirect to a direct band-gap absorber.

Originalsprache	englisch
Titel	High Intensity Lasers and High Field Phenomena, HILAS 2022
Herausgeber (Verlag)	Optica Publishing Group (formerly OSA)
ISBN (elektronisch)	9781557528209
Publikationsstatus	Veröffentlicht - 2022
Veranstaltung	2022 High Intensity Lasers and High Field Phenomena: HILAS 2022 - Budapest, Ungarn Dauer: 21 März 2022 → 25 März 2022

Publikationsreihe

Name	Optics InfoBase Conference Papers

Konferenz

Konferenz	2022 High Intensity Lasers and High Field Phenomena
Kurztitel	HILAS 2022
Land/Gebiet	Ungarn
Ort	Budapest
Zeitraum	21/03/22 → 25/03/22

ASJC Scopus subject areas

Elektronische, optische und magnetische Materialien
Werkstoffmechanik

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Gessner, JA, Yamada, S, Siegrist, F, Ossiander, M, Golyari, K, Hahner, D, Pervak, V, Sharma, S, Yabana, K, Schultze, M & Krausz, F 2022, Band-Structure Metamorphosis in Solids. in High Intensity Lasers and High Field Phenomena, HILAS 2022., HF5B.2, Optics InfoBase Conference Papers, Optica Publishing Group (formerly OSA), 2022 High Intensity Lasers and High Field Phenomena, Budapest, Ungarn, 21/03/22.

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title = "Band-Structure Metamorphosis in Solids",

abstract = "Our real-time study of nonlinearities in solids demonstrates that ultrafast light fields can transform nickel from a conducting to a semiconducting material, while silicon can be turned from an indirect to a direct band-gap absorber.",

author = "Gessner, {Julia Anthea} and Shunsuke Yamada and Florian Siegrist and Marcus Ossiander and Keyhan Golyari and Daniel Hahner and Volodymyr Pervak and Sangeeta Sharma and Kazuhiro Yabana and Martin Schultze and Ferenc Krausz",

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AU - Yamada, Shunsuke

AU - Siegrist, Florian

AU - Ossiander, Marcus

AU - Golyari, Keyhan

AU - Hahner, Daniel

AU - Pervak, Volodymyr

AU - Sharma, Sangeeta

AU - Yabana, Kazuhiro

AU - Schultze, Martin

AU - Krausz, Ferenc

PY - 2022

Y1 - 2022

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AB - Our real-time study of nonlinearities in solids demonstrates that ultrafast light fields can transform nickel from a conducting to a semiconducting material, while silicon can be turned from an indirect to a direct band-gap absorber.

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M3 - Conference paper

AN - SCOPUS:85136793943

T3 - Optics InfoBase Conference Papers

BT - High Intensity Lasers and High Field Phenomena, HILAS 2022

PB - Optica Publishing Group (formerly OSA)

T2 - 2022 High Intensity Lasers and High Field Phenomena

Y2 - 21 March 2022 through 25 March 2022

ER -

Band-Structure Metamorphosis in Solids

Abstract

Publikationsreihe

Konferenz

ASJC Scopus subject areas

Andere Dateien und Links

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