Add to ORKGPermanent electric dipole moments in molecules require a breaking of parity symmetry. Conventionally, this symmetry breaking relies on the presence of heteronuclear constituents. We report the observation of a permanent electric dipole moment in a homonuclear molecule in which the binding is based on asymmetric electronic excitation between the atoms. These exotic molecules consist of a ground-state rubidium (Rb) atom bound inside a second Rb atom electronically excited to a high-lying Rydberg state. Detailed calculations predict appreciable dipole moments on the order of 1 Debye, in excellent agreement with the observations
We review the field of ultralong-range Rydberg molecules with a focus on recent developments. We bri...
We report the observation of dipole-forbidden, but quadrupole-allowed, one-photon transitions to hig...
Nowadays, the incompleteness of the Standard Model of particles is largely acknowledged. One of its ...
Based on fundamental symmetries, molecules cannot have a permanent electric dipole moment, although ...
We observe that when an ultracold ground state cesium (Cs) atom becomes bound within the electronic ...
Author Institution: Department of Chemistry Applied Physics Laboratory, Harvard University The Johns...
International audienceWe explore the possibilities for a next-generation electron-electric-dipole-mo...
Reported here are Stark-effect measurements of the permanent electric dipole moments of two structur...
We experimentally determine the conjecture that hydrogen-like atoms such as Rb and Cs may have large...
International audienceDoubly polar molecules, possessing an electric dipole moment and a magnetic di...
In a recent series of combined experimental and theoretical studies we investigated the ground state...
Based on fundamental symmetries, molecules cannot have a permanent electric dipole moment although i...
We present the direct measurements of electric dipole moments for 5P3/2→nD5/2 transitions with 20 n ...
We report calculations of Born-Oppenheimer potential energy curves of the chromium-rubidium heteronu...
We present a novel binding mechanism where a neutral Rydberg atom and an atomic ion form a molecular...
We review the field of ultralong-range Rydberg molecules with a focus on recent developments. We bri...
We report the observation of dipole-forbidden, but quadrupole-allowed, one-photon transitions to hig...
Nowadays, the incompleteness of the Standard Model of particles is largely acknowledged. One of its ...
Based on fundamental symmetries, molecules cannot have a permanent electric dipole moment, although ...
We observe that when an ultracold ground state cesium (Cs) atom becomes bound within the electronic ...
Author Institution: Department of Chemistry Applied Physics Laboratory, Harvard University The Johns...
International audienceWe explore the possibilities for a next-generation electron-electric-dipole-mo...
Reported here are Stark-effect measurements of the permanent electric dipole moments of two structur...
We experimentally determine the conjecture that hydrogen-like atoms such as Rb and Cs may have large...
International audienceDoubly polar molecules, possessing an electric dipole moment and a magnetic di...
In a recent series of combined experimental and theoretical studies we investigated the ground state...
Based on fundamental symmetries, molecules cannot have a permanent electric dipole moment although i...
We present the direct measurements of electric dipole moments for 5P3/2→nD5/2 transitions with 20 n ...
We report calculations of Born-Oppenheimer potential energy curves of the chromium-rubidium heteronu...
We present a novel binding mechanism where a neutral Rydberg atom and an atomic ion form a molecular...
We review the field of ultralong-range Rydberg molecules with a focus on recent developments. We bri...
We report the observation of dipole-forbidden, but quadrupole-allowed, one-photon transitions to hig...
Nowadays, the incompleteness of the Standard Model of particles is largely acknowledged. One of its ...