Add to ORKGAn overview of the use of stored ion beams and phase space cooling (electron cooling) is given for the field of molecular physics. Emphasis is given to interactions between molecular ions and electrons studied in the electron cooler: dissociative recombination and, for internally excited molecular ions, electron-induced ro-vibrational cooling. Diagnostic methods for the transverse ion beam properties and for the internal exciation of the molecular ions are discussed, and results for phase space cooling and internal (vibrational) cooling are presented for hydrogen molecular ions
The Cryogenic Storage Ring (CSR), presently under construction at the Max-Planck-Institute for Nucle...
For heavy-particle beams in storage rings where there is no significant synchrotron radiation dampin...
The preparation of cold molecules is of great importance in many contexts, such as fundamental physi...
An overview of the use of stored ion beams and phase space cooling (electron cooling) is given for t...
An overview of the use of stored ion beams and phase space cooling (electron cooling) is given for t...
We report on the possibility to produce homonuclear vibrationally cold molecular ion beams (using D2...
Stored fast ion beams in atomic and molecular collision experiments are discussed with an emphasis o...
We present state-selected measurements of rotational cooling and excitation rates of CH+ molecular i...
Cooling methods are discussed in reference to the electron-positron, ion and muon beams
We review recent progress in laser cooling of fast stored ion beams at the Heidelberg Test Storage R...
The electron cooling is used for accumulation and shrink-ing emittance of ions: from p up to uranium...
Three methods to cool stored ion beams have been achieved experimentally. These are electron, stocha...
Les collisions ion-ion (intrafaisceau) provoquent des excitations électroniques dans les faisceaux d...
The electrostatic cryogenic storage ring (CSR) with wall temperature below 10 K and ultralow pressur...
The electrostatic cryogenic storage ring (CSR) with wall temperature below 10 K and ultralow pressur...
The Cryogenic Storage Ring (CSR), presently under construction at the Max-Planck-Institute for Nucle...
For heavy-particle beams in storage rings where there is no significant synchrotron radiation dampin...
The preparation of cold molecules is of great importance in many contexts, such as fundamental physi...
An overview of the use of stored ion beams and phase space cooling (electron cooling) is given for t...
An overview of the use of stored ion beams and phase space cooling (electron cooling) is given for t...
We report on the possibility to produce homonuclear vibrationally cold molecular ion beams (using D2...
Stored fast ion beams in atomic and molecular collision experiments are discussed with an emphasis o...
We present state-selected measurements of rotational cooling and excitation rates of CH+ molecular i...
Cooling methods are discussed in reference to the electron-positron, ion and muon beams
We review recent progress in laser cooling of fast stored ion beams at the Heidelberg Test Storage R...
The electron cooling is used for accumulation and shrink-ing emittance of ions: from p up to uranium...
Three methods to cool stored ion beams have been achieved experimentally. These are electron, stocha...
Les collisions ion-ion (intrafaisceau) provoquent des excitations électroniques dans les faisceaux d...
The electrostatic cryogenic storage ring (CSR) with wall temperature below 10 K and ultralow pressur...
The electrostatic cryogenic storage ring (CSR) with wall temperature below 10 K and ultralow pressur...
The Cryogenic Storage Ring (CSR), presently under construction at the Max-Planck-Institute for Nucle...
For heavy-particle beams in storage rings where there is no significant synchrotron radiation dampin...
The preparation of cold molecules is of great importance in many contexts, such as fundamental physi...