The electron affinities of atomic hydrogen and deuterium are determined by tunable-laser threshold-photodetachment spectroscopy: the electron affinities of H (F = 0) and D (F = 1/2) are 6082.99 + or - 0.15 and 6086.2 + or - 0.6/cm, respectively. The value for H is a 20-fold improvement over previous experimental determinations
Absorption of infrared and visible radiation from stellar emission spectra by the negative...
The hydrogen atom is an important testing ground for fundamental physical theory, because it is the ...
Molecular hydrogen and its isotopic and ionic species are benchmark systems for testing quantum chem...
The electron affinities of atomic hydrogen and deuterium have been determined by tunable-laser thres...
The ab initio computation and experimental determination of the dissociation energy (Do) of the hydr...
Recent high-precision energy level calculations in atomic hydrogen and deuterium are presented. Nume...
International audienceAccepted values of the masses of several subatomic particles have been under d...
The electron affinity of the deuterium atom has been determined to be 6086.81(27) cm−1 from a measur...
Recent mass measurements of light atomic nuclei in Penning traps have indicated possible inconsisten...
New measurements of the absolute cross sections for dissociative electron attachment (DEA) in molecu...
We have measured the production of Lyman α and Balmer α fluorescence from atomic H and D for the pho...
New measurements of the absolute cross sections for dissociative electron attachment (DEA) in molecu...
A determination of fundamental constants using HD+ ion spectroscopy data is discussed from compariso...
International audienceWe give a pedagogical description of the method to extract the charge radii an...
A few lines have been observed in the far ultraviolet emission spectrum of molecular hydrogen and de...
Absorption of infrared and visible radiation from stellar emission spectra by the negative...
The hydrogen atom is an important testing ground for fundamental physical theory, because it is the ...
Molecular hydrogen and its isotopic and ionic species are benchmark systems for testing quantum chem...
The electron affinities of atomic hydrogen and deuterium have been determined by tunable-laser thres...
The ab initio computation and experimental determination of the dissociation energy (Do) of the hydr...
Recent high-precision energy level calculations in atomic hydrogen and deuterium are presented. Nume...
International audienceAccepted values of the masses of several subatomic particles have been under d...
The electron affinity of the deuterium atom has been determined to be 6086.81(27) cm−1 from a measur...
Recent mass measurements of light atomic nuclei in Penning traps have indicated possible inconsisten...
New measurements of the absolute cross sections for dissociative electron attachment (DEA) in molecu...
We have measured the production of Lyman α and Balmer α fluorescence from atomic H and D for the pho...
New measurements of the absolute cross sections for dissociative electron attachment (DEA) in molecu...
A determination of fundamental constants using HD+ ion spectroscopy data is discussed from compariso...
International audienceWe give a pedagogical description of the method to extract the charge radii an...
A few lines have been observed in the far ultraviolet emission spectrum of molecular hydrogen and de...
Absorption of infrared and visible radiation from stellar emission spectra by the negative...
The hydrogen atom is an important testing ground for fundamental physical theory, because it is the ...
Molecular hydrogen and its isotopic and ionic species are benchmark systems for testing quantum chem...
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