946-nm Nd:YAG digital-locked laser at 1.1 x 10(-16) in 1 s and transfer-locked to a cryogenic silicon cavity

Didier Alexandre; Ignatovich Stepan; Benkler Erik; Okhapkin Maxim; Mehlstaeubler Tanja E.

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946-nm Nd:YAG digital-locked laser at 1.1 x 10(-16) in 1 s and transfer-locked to a cryogenic silicon cavity

机译：946-NM ND：YAG数字锁定激光器为1.1 x 10（-16），在1 s中，转移到低温硅腔

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We present a Nd:YAG ultra-stable laser system operating at 946 nm and demonstrate a fractional frequency instability of 1.1 x 10(-16) at 1 s by pre-stabilizing it to a 30-cm-long ULE cavity at room temperature. All key analog components have been replaced by FPGA-based digital electronics. To reach an instability below the 10(-16) level, we transfer the stability of a 1542 nm laser stabilized to a cryogenic silicon cavity exhibiting a fractional frequency instability of 4 x 10(-17) at 1 s to the laser at 946 nm. (C) 2019 Optical Society of America

机译：我们在946nm下运行的Nd：YAG超稳定激光系统，通过在室温下将其预稳定到30cm长的ULE腔中，在1 s处展示1.1×10（-16）的分数频率不稳定性。所有关键模拟组件已被FPGA的数字电子产品取代。为了达到低于10（-16）水平的不稳定，我们将稳定的1542nm激光器的稳定性转移到低温硅腔中，在946nm处以1 s处的4×10（-17）的分数频率不稳定性显示为4×10（-17）。（c）2019年光学学会

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来源
《Optics Letters》 |2019年第7期|共4页
作者
Didier Alexandre; Ignatovich Stepan; Benkler Erik; Okhapkin Maxim; Mehlstaeubler Tanja E.;
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Phys Tech Bundesanstalt Bundesallee 100 D-38116 Braunschweig Germany;

SB RAS Inst Laser Phys Novosibirsk Russia;

Phys Tech Bundesanstalt Bundesallee 100 D-38116 Braunschweig Germany;

Phys Tech Bundesanstalt Bundesallee 100 D-38116 Braunschweig Germany;

Phys Tech Bundesanstalt Bundesallee 100 D-38116 Braunschweig Germany;

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正文语种 eng
中图分类计量学;光学;
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1. 946-nm Nd:YAG digital-locked laser at 1.1 x 10(-16) in 1 s and transfer-locked to a cryogenic silicon cavity [J] . Didier Alexandre, Ignatovich Stepan, Benkler Erik, Optics Letters . 2019,第7期

机译：946-NM ND：YAG数字锁定激光器为1.1 x 10（-16），在1 s中，转移到低温硅腔
2. 60-W 946-nm cryogenically-cooled Nd:YAG laser [J] . Cante S., Valle S., Yoon S. J., Applied physics . 2019,第7期

机译：60-W 946-nm低温冷却的Nd：YAG激光
3. Tunability of a 946-nm Nd:YAG microchip laser by use of a double-cavity configuration [J] . Hiroshi Hara, Brian M. Walsh, Norman P. Barnes Applied Optics . 2004,第15期

机译：使用双腔配置的946 nm Nd：YAG微芯片激光器的可调谐性
4. The effect of Nd concentration on 1064 and 946-nm emission of Nd:YAG lasers under continuous-wave Ti:sapphire pumping [C] . Pavel, N., Lupei, . 2003

机译：连续波Ti：蓝宝石泵浦下Nd浓度对Nd：YAG激光器1064和946 nm发射的影响
5. Laser processing of aluminum alloy 5754 and silicon using a high brightness diode-pumped solid-state niodymium:YAG laser (DPSSL). [D] . Lim, Daniel J. 2004

机译：使用高亮度二极管泵浦固态钕：YAG激光（DPSSL）对铝合金5754和硅进行激光加工。
6. Fracture resistance of root-filled teeth after cavity preparation with conventional burs Er: YAG and ErCr: YSGG lasers [O] . Uğur Aydın, Fatih Aksoy, Samet Tosun 2018

机译：用常规车针Er：YAG和ErCr：YSGG激光制备腔后牙根充填的耐断裂性
7. Intra-cavity cryogenic optical refrigeration using high power vertical external-cavity surface-emitting lasers (VECSELs) [O] . Mohammadreza Ghasemkhani, Alexander R. Albrecht, Seth D. Melgaard, 2014

机译：使用高功率垂直外腔表面发射激光器（Vecsels）内腔内的低温光学制冷
8. Novel Epitaxial Growth Technologies for Long-Wavelength (1.1-1.5 micron) Vertical-Cavity Surface-Emitting Lasers and Optical Switches for High- Performance Optical Information Networks [R] . Cheng, J. 1998

机译：用于高性能光信息网络的长波长（1.1-1.5微米）垂直腔面发射激光器和光开关的新型外延生长技术

946-nm Nd:YAG digital-locked laser at 1.1 x 10(-16) in 1 s and transfer-locked to a cryogenic silicon cavity

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