Synchronized spectroscopy measurements for acetylene and molecular iodine reference transitions performed with an ultrastable laser signal may be exploited to constrain jointly couplings of dark matter to many fundamental constants. Enhanced sensitivity is expected from precision spectroscopy with quantum light.

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Molecular Spectroscopy Experiments for Direct Detection of Dark Matter

  • Florin Lucian Constantin

摘要

Synchronized spectroscopy measurements for acetylene and molecular iodine reference transitions performed with an ultrastable laser signal may be exploited to constrain jointly couplings of dark matter to many fundamental constants. Enhanced sensitivity is expected from precision spectroscopy with quantum light.