98                                          真空与低温                                   第 32 卷 第  1  期


                  2017，25（10）：11365−11376.                      [37]   YIM H S，LEE S，KWON Y T，et al. Optical phase locking
              [23]   SANTARELLI G，CLAIRON A，LEA S N，et al. Hetero-  of  two  extended-cavity  diode  lasers  with  ultra-low  phase
                  dyne optical phase-locking of extended-cavity semiconductor  noise for atom interferometry[J]. Applied Physics B，2014，
                  lasers at 9 GHz[J]. Optics Communications，1994，104（4/6）：  115（4）：491−495.

                  339−344.                                      [38]   HYUK  S  Y， SANG-BUM  L， YONG  T  K， et  al.  Optical
              [24]   RICCI L，MÜLLER W M，ESSLINGER T，et al. A com-   phase-locking of two extended-cavity diode lasers by serro-
                  pact grating-stabilized diode laser system for atomic physi-  dyne modulation[J]. Applied Optics，2019，58（10）：2481−
                  cs[J].  Optics  Communications， 1995， 117（5/6）： 541−549.  2484.
              [25]   LI L M，TANG W Z，HU Z Y，et al. Realization of optical  [39]   GOUËT  L  J， KIM  J， BOURASSIN-BOUCHET  C， et  al.
                  phase locked loop at 9.2 GHz between two independent diode  Wide bandwidth phase-locked diode laser with an intra-cavity
                  lasers[J]. Chinese Physics Letters，2008，25（9）：3253−3256.  electro-optic  modulator[J].  Optics  Communications， 2009，
              [26]   ZHOU  M， HU  Z， DUAN  X， et  al.  Precisely  mapping  the  282（5）：977−980.
                  magnetic field gradient in vacuum with an atom interferom-  [40]   CHENG W Y，CHEN T J，LIN C W，et al. Robust sub-milli-
                  eter[J]. Physical Review A，2010，82（6）：061602.     hertz-level offset locking for transferring optical frequency
              [27]   OON F E，DUMKE R. Compact single-seed，module-based  accuracy  and  for  atomic  two-photon  spectroscopy[J].  Op-
                  laser system on a transportable high-precision atomic gra-  tics Express，2017，25（3）：2752−2762.
                  vimeter[J]. AVS Quantum Science，2022，4（4）：044401.  [41]   PETERS A，CHUNG K Y，CHU S. High-precision gravity
              [28]   SORRENTINO F，BONGS K，BOUYER P，et al. A Com-    measurements  using  atom  interferometry[J].  Metrologia，
                  pact atom interferometer for future space missions[J]. Mi-  2001，38（1）：25.
                  crogravity Science and Technology，2010，22（4）：551−561.  [42]   KWON Y T，KUROSU T，KOGA Y，et al. Development of
              [29]   CARRAZ O，LIENHART F，CHARRIÈRE R，et al. Com-    an intensity stabilized laser system with frequency offset of
                  pact and robust laser system for onboard atom interferome-  9.2  GHz[J].  Japanese  Journal  of  Applied  Physics， 2003，
                  try[J]. Applied Physics B，2009，97（2）：405−411.     42（8A）：924.
              [30]   VAROQUAUX G，ZAHZAM N，CHAIBI W，et al. I. C. E.：  [43]   CACCIAPUOTI  L， ANGELIS  D  M， FATTORI  M， et  al.
                  An ultra-cold atom source for long-baseline interferometric  Analog+digital phase and frequency detector for phase loc-
                  inertial sensors in reduced gravity[C]//Rencontres de Moriond  king  of  diode  lasers[J].  Review  of  Scientific  Instruments，
                  Gravitational Waves and Experimental Gravity，La Thuile，  2005，76（5）：053111.
                  Val d'Aosta，Italy，2007.                       [44]   HÖCKEL  D， SCHOLZ  M， BENSON  O.  A  robust  phase-
              [31]   LÉVÈQUE T，ANTONI-MICOLLIER L，FAURE B，et al.    locked diode laser system for EIT experiments in cesium[J].
                  A laser setup for rubidium cooling dedicated to space appli-  Applied Physics B，2009，94（3）：429−435.
                  cations[J]. Applied Physics B，2014，116（4）：997−1004.  [45]   DING  X， SANG  L  L， ZHANG  C， et  al.  High  precision
              [32]   VINCENT M，PIERRE V，NICOLAS M L，et al. Gravity  6.8GHz phase locking of coherent laser beams for optical
                                  −9
                  measurements below 10 g with a transportable absolute quan-  lattice experiment [C]//International Conference on Optical
                  tum gravimeter[J]. Scientific Reports，2018，8（1）：12300.  Instruments and Technology，International Society for Op-
              [33]   THERON F，CARRAZ O，RENON G，et al. Narrow line-  tics and Photonics，2013.
                  width single laser source system for onboard atom interfer-  [46]   HU Z，SUN B，DUAN X，et al. Demonstration of an ultra-
                  ometry[J]. Applied Physics B，2015，118（1）：1−5.     high-sensitivity atom-interferometry absolute gravimeter[J].
              [34]   高浚超，陈俊杰，叶留贤，等. 用于可移动量子重力仪的光                    Physical Review A，2013，88（4）：043610.
                  纤拉曼激光源研究      [J]. 光子学报，2024，53（8）：155−166.   [47]   XU  Y  Y， DUAN  X  C， CUI  J  F， et  al.  Evaluation  of  the

              [35]   ENLOE  L  H， RODDA  J  L.  Lasers  phase-locked  loop[J].  transportable  atom  gravimeter  HUST-QG[J].  Metrologia，
                  Proceedings of the IEEE，1965，53（2）：165−166.       2022，59（5）：055001.
              [36]   KASEVICH M，CHU S. Atomic interferometry using stim-  [48]   WANG Q，WANG Z，FU Z，et al. A compact laser system
                  ulated Raman transitions[J]. Physical Review Letters，1991，  for  the  cold  atom  gravimeter[J].  Optics  Communications，
                  67（2）：181−184.                                    2016，358：82−87.