Add to ORKGLaser spectroscopy is a versatile tool to unveil fundamental atomic properties of an element and the ground state information of the atomic nucleus. The heaviest elements are of particular interest as the ordering of their shell electrons is strongly influenced by electron-electron correlations, quantum electrodynamics and relativistic effects leading to distinct chemical behaviour. The elements beyond fermium (Z > 100) are accessible in fusion evaporation reactions at minute quantities and at high energies, hampering their optical spectroscopy. Recently, the RAdiation Detected Resonance Ionization Spectroscopy (RADRIS) technique was employed to explore the electronic structure of the element nobelium (No, Z = 102). The 1S0->1P1 ground stat...
Journal article in the Special Issue "Atomic Structure of the Heaviest Elements" in Atoms submitted ...
Optical spectroscopy of the transfermium elements (atomic number Z > 100) is nowadays one of the mos...
Using the sensitive Radiation Detected Resonance Ionization Spectroscopy (RADRIS) technique an optic...
Laser spectroscopy is a versatile tool to unveil fundamental atomic properties of an element and the...
Optical spectroscopy of a primordial isotope has traditionally formed the basis for understanding th...
Laser spectroscopy of the heaviest elements provides high-precision data on their atomic and nuclear...
Optical transitions were sought for in 254No, which was produced at the UNILAC accelerator at GSI in...
Strong efforts are undertaken at GSI in Darmstadt preparing for laser spectroscopy of the synthetic ...
For the investigation of the atomic level structure of heavy elements which can only be produced at ...
For the investigation of the atomic level structure of heavy elements which can only be produced at ...
Journal article in the Special Issue "Atomic Structure of the Heaviest Elements" in Atoms submitted ...
Optical spectroscopy of the transfermium elements (atomic number Z > 100) is nowadays one of the mos...
Using the sensitive Radiation Detected Resonance Ionization Spectroscopy (RADRIS) technique an optic...
Laser spectroscopy is a versatile tool to unveil fundamental atomic properties of an element and the...
Optical spectroscopy of a primordial isotope has traditionally formed the basis for understanding th...
Laser spectroscopy of the heaviest elements provides high-precision data on their atomic and nuclear...
Optical transitions were sought for in 254No, which was produced at the UNILAC accelerator at GSI in...
Strong efforts are undertaken at GSI in Darmstadt preparing for laser spectroscopy of the synthetic ...
For the investigation of the atomic level structure of heavy elements which can only be produced at ...
For the investigation of the atomic level structure of heavy elements which can only be produced at ...
Journal article in the Special Issue "Atomic Structure of the Heaviest Elements" in Atoms submitted ...
Optical spectroscopy of the transfermium elements (atomic number Z > 100) is nowadays one of the mos...
Using the sensitive Radiation Detected Resonance Ionization Spectroscopy (RADRIS) technique an optic...