We demonstrate a non-crossover sub-Doppler dichroic atomic vapor laser locking(DAVLL)in selective reflection scheme,which allows us to obtain a modulation-free laser locking with wide tuneable range.The dependence of ...We demonstrate a non-crossover sub-Doppler dichroic atomic vapor laser locking(DAVLL)in selective reflection scheme,which allows us to obtain a modulation-free laser locking with wide tuneable range.The dependence of peak-to-peak amplitude,tuneable range and the slope near the zero-crossing point of error signal on the frequency shift induced by the magnetic fields are studied.The adjustable error signal by the varying external magnetic field can offer the laser locking from the order of tens MHz to hundreds MHz.The ultimate dither of locked laser frequency is less than 0.5 MHz.The square root of Allan variance of the error signals reaches a minimum of 3×10^-10 for an averaging time of 130 s.展开更多
基金Project supported by the National Key Research and Development Program of China(Grant Nos.2017YFA0304203 and 2016YFF0200104)the National Natural Science Foundation of China(Grant No.61827824)+1 种基金the Fund from the BAIREN Plan of Shanxi Province,Chinathe Funding for Shanxi “1331 Project” Key Subjects Construction,China
文摘We demonstrate a non-crossover sub-Doppler dichroic atomic vapor laser locking(DAVLL)in selective reflection scheme,which allows us to obtain a modulation-free laser locking with wide tuneable range.The dependence of peak-to-peak amplitude,tuneable range and the slope near the zero-crossing point of error signal on the frequency shift induced by the magnetic fields are studied.The adjustable error signal by the varying external magnetic field can offer the laser locking from the order of tens MHz to hundreds MHz.The ultimate dither of locked laser frequency is less than 0.5 MHz.The square root of Allan variance of the error signals reaches a minimum of 3×10^-10 for an averaging time of 130 s.
