Add to ORKGH2 is a benchmark system for fundamental physics, yet spectroscopy is hindered by the lack of dipole moment. We present a comb-calibrated coherent Raman spectrometer for advanced studies of the collisional physics of the molecule
International audienceWe introduce a comb-calibrated spectrometer for frequency metrology of Raman-a...
The stimulated Raman spectroscopy offers a great advantage over the other coherent Raman techniques ...
Frequency combs have revolutionized optical frequency metrology, allowing one to determine highly ac...
H2 is a benchmark system for fundamental physics, yet spectroscopy is hindered by the lack of dipole...
International audienceOne of the most intriguing molecular targets for testing quantum electrodynami...
H2 is the simplest neutral molecule in the universe and it is a benchmark system for testing quantum...
International audienceHighly accurate measurements of H2 transition frequencies is fundamental for t...
International audienceWe introduce a comb-calibrated spectrometer for frequency metrology of Raman-a...
The stimulated Raman spectroscopy offers a great advantage over the other coherent Raman techniques ...
Frequency combs have revolutionized optical frequency metrology, allowing one to determine highly ac...
H2 is a benchmark system for fundamental physics, yet spectroscopy is hindered by the lack of dipole...
International audienceOne of the most intriguing molecular targets for testing quantum electrodynami...
H2 is the simplest neutral molecule in the universe and it is a benchmark system for testing quantum...
International audienceHighly accurate measurements of H2 transition frequencies is fundamental for t...
International audienceWe introduce a comb-calibrated spectrometer for frequency metrology of Raman-a...
The stimulated Raman spectroscopy offers a great advantage over the other coherent Raman techniques ...
Frequency combs have revolutionized optical frequency metrology, allowing one to determine highly ac...