摘要
In this paper, we overview recent advances in high-precision structure calculations of the hydrogen molecular ions (H2+ and HD+), including nonrelativistic energy eigenvalues and relativistic and quantum electrodynamic corrections. In combination with high-precision measurements, it is feasible to precisely determine a molecular-based value of the proton- to-electron mass ratio. An experimental scheme is presented for measuring the rovibrational transition frequency (v,L) : (0, 0) → (6,1) in HD+, which is currently underway at the Wuhan Institute of Physics and Mathematics.
In this paper, we overview recent advances in high-precision structure calculations of the hydrogen molecular ions (H2+ and HD+), including nonrelativistic energy eigenvalues and relativistic and quantum electrodynamic corrections. In combination with high-precision measurements, it is feasible to precisely determine a molecular-based value of the proton- to-electron mass ratio. An experimental scheme is presented for measuring the rovibrational transition frequency (v,L) : (0, 0) → (6,1) in HD+, which is currently underway at the Wuhan Institute of Physics and Mathematics.
基金
supported by the National Natural Science Foundation of China(Grants Nos.11474316,11004221,10974224,and 11274348)
the"Hundred Talent Program"of Chinese Academy of Sciences
supported by NSERC,SHARCnet,ACEnet of Canada
the CAS/SAFEA International Partnership Program for Creative Research Teams
