Dual-media laser system: Nitrogen vacancy diamond and red semiconductor laser

Lukas Lindner; Felix A. Hahl; Tingpeng Luo; Guillermo Nava Antonio; Xavier Vidal; Marcel Rattunde; Takeshi Ohshima; Joachim Sacher; Qiang Sun; Marco Capelli; Brant C. Gibson; Andrew D. Greentree; Rüdiger Quay; Jan Jeske

doi:10.1126/sciadv.adj3933

Dual-media laser system: Nitrogen vacancy diamond and red semiconductor laser

Lukas Lindner^*, Felix A. Hahl, Tingpeng Luo, Guillermo Nava Antonio, Xavier Vidal, Marcel Rattunde, Takeshi Ohshima, Joachim Sacher, Qiang Sun, Marco Capelli, Brant C. Gibson, Andrew D. Greentree, Rüdiger Quay, Jan Jeske^*

^*Corresponding author for this work

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Abstract

Diamond is a potential host material for laser applications due to its exceptional thermal properties, ultrawide bandgap, and color centers, which promise gain across the visible spectrum. More recently, coherent laser methods offer improved sensitivity for magnetometry. However, diamond fabrication is difficult in comparison to other crystalline matrices, and many optical loss channels are not yet understood. Here, we demonstrate a continuous-wave laser threshold as a function of the pump intensity on nitrogen-vacancy (NV) color centers. To achieve this, we constructed a laser cavity with both an NV diamond medium and an intracavity antireflection-coated diode laser. This dual-medium approach compensates intrinsic losses of the cavity by providing a fixed additional gain below threshold of the diode laser. We observe a continuous-wave laser threshold of the laser system and linewidth narrowing with increasing green pump power on the NV centers. Our results are a major development toward coherent approaches to magnetometry.

Original language	English
Article number	eadj3933
Journal	Science advances
Volume	10
Issue number	39
DOIs	https://doi.org/10.1126/sciadv.adj3933
Publication status	Published - Sept 2024

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10.1126/sciadv.adj3933Licence: CC BY

sciadv.adj3933Licence: CC BY

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title = "Dual-media laser system: Nitrogen vacancy diamond and red semiconductor laser",

abstract = "Diamond is a potential host material for laser applications due to its exceptional thermal properties, ultrawide bandgap, and color centers, which promise gain across the visible spectrum. More recently, coherent laser methods offer improved sensitivity for magnetometry. However, diamond fabrication is difficult in comparison to other crystalline matrices, and many optical loss channels are not yet understood. Here, we demonstrate a continuous-wave laser threshold as a function of the pump intensity on nitrogen-vacancy (NV) color centers. To achieve this, we constructed a laser cavity with both an NV diamond medium and an intracavity antireflection-coated diode laser. This dual-medium approach compensates intrinsic losses of the cavity by providing a fixed additional gain below threshold of the diode laser. We observe a continuous-wave laser threshold of the laser system and linewidth narrowing with increasing green pump power on the NV centers. Our results are a major development toward coherent approaches to magnetometry.",

author = "Lukas Lindner and Hahl, {Felix A.} and Tingpeng Luo and Antonio, {Guillermo Nava} and Xavier Vidal and Marcel Rattunde and Takeshi Ohshima and Joachim Sacher and Qiang Sun and Marco Capelli and Gibson, {Brant C.} and Greentree, {Andrew D.} and R{\"u}diger Quay and Jan Jeske",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors.",

year = "2024",

month = sep,

doi = "10.1126/sciadv.adj3933",

language = "English",

volume = "10",

journal = "Science advances",

issn = "2375-2548",

publisher = "American Association for the Advancement of Science",

number = "39",

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T2 - Nitrogen vacancy diamond and red semiconductor laser

AU - Lindner, Lukas

AU - Hahl, Felix A.

AU - Luo, Tingpeng

AU - Antonio, Guillermo Nava

AU - Vidal, Xavier

AU - Rattunde, Marcel

AU - Ohshima, Takeshi

AU - Sacher, Joachim

AU - Sun, Qiang

AU - Capelli, Marco

AU - Gibson, Brant C.

AU - Greentree, Andrew D.

AU - Quay, Rüdiger

AU - Jeske, Jan

PY - 2024/9

Y1 - 2024/9

N2 - Diamond is a potential host material for laser applications due to its exceptional thermal properties, ultrawide bandgap, and color centers, which promise gain across the visible spectrum. More recently, coherent laser methods offer improved sensitivity for magnetometry. However, diamond fabrication is difficult in comparison to other crystalline matrices, and many optical loss channels are not yet understood. Here, we demonstrate a continuous-wave laser threshold as a function of the pump intensity on nitrogen-vacancy (NV) color centers. To achieve this, we constructed a laser cavity with both an NV diamond medium and an intracavity antireflection-coated diode laser. This dual-medium approach compensates intrinsic losses of the cavity by providing a fixed additional gain below threshold of the diode laser. We observe a continuous-wave laser threshold of the laser system and linewidth narrowing with increasing green pump power on the NV centers. Our results are a major development toward coherent approaches to magnetometry.

AB - Diamond is a potential host material for laser applications due to its exceptional thermal properties, ultrawide bandgap, and color centers, which promise gain across the visible spectrum. More recently, coherent laser methods offer improved sensitivity for magnetometry. However, diamond fabrication is difficult in comparison to other crystalline matrices, and many optical loss channels are not yet understood. Here, we demonstrate a continuous-wave laser threshold as a function of the pump intensity on nitrogen-vacancy (NV) color centers. To achieve this, we constructed a laser cavity with both an NV diamond medium and an intracavity antireflection-coated diode laser. This dual-medium approach compensates intrinsic losses of the cavity by providing a fixed additional gain below threshold of the diode laser. We observe a continuous-wave laser threshold of the laser system and linewidth narrowing with increasing green pump power on the NV centers. Our results are a major development toward coherent approaches to magnetometry.

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DO - 10.1126/sciadv.adj3933

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SN - 2375-2548

VL - 10

JO - Science advances

JF - Science advances

IS - 39

M1 - eadj3933

ER -

Dual-media laser system: Nitrogen vacancy diamond and red semiconductor laser

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