Add to ORKGThe magnetic hyperfine structure constants have been calculated for low-lying levels in neutral potassium atom taking into account the Bohr--Weisskopf (BW) and Breit--Rosenthal (BR) effects. According to our results the $4p_{1/2}$ state of K~I is free from both BR and BW corrections on the level of the current theoretical uncertainties. Using this finding and the measured values of the $A(4p_{1/2})$ constants, we corrected the nuclear magnetic moments for several short-lived potassium isotopes. The BW correction is represented as a product of atomic and nuclear factors. We calculated the atomic factor for the ground state of K I, which allowed us to extract nuclear factors for potassium $I^\pi = 3/2^+$ isotopes from the experimental data. I...
In this paper the proton, neutron and matter density distributions and the corresponding root mean s...
Resonance scattering of light as function of magnetic field has been used to investigate the hyperfi...
Hyperfine spectra of 48-51K (Z = 19) isotopes were measured at ISOLDE (CERN) for the first time, pro...
Background: Ground-state spins and magnetic moments are sensitive to the nuclear wave function, thus...
Hyperfine spectra of 48-51K (Z = 19) isotopes were measured at ISOLDE (CERN) for the first time, pro...
Nuclear magnetic moments provide a sensitive test of nuclear wave functions, in particular those of ...
The hfs of a K atom in a magnetic field H exhibits pairs of lines whose frequencies differ by 2 goH,...
We report a fourfold improvement in the determination of nuclear magnetic moments for neutron-defici...
Nuclear ground-state properties, such as spin, charge radius, and magnetic dipole and electric quadr...
Calculations of the magnetic hyperfine structure rely on the input of nuclear properties - nuclear m...
Nuclear ground-state properties, such as spin, charge radius, and magnetic dipole and electric quadr...
We report on the measurement of optical isotope shifts for 38, 39, 42, 44, 46–51K relative to 47K fr...
Nuclear ground-state properties, such as spin, charge radius, and magnetic dipole and electric quadr...
Portion of a thesis. "January 28, 1952."Bibliography: p. 32.Army Signal Corps Contract No. DA 36-039...
A method for determining the hyperfine anomaly, without using the nuclear magnetic moments, is used ...
In this paper the proton, neutron and matter density distributions and the corresponding root mean s...
Resonance scattering of light as function of magnetic field has been used to investigate the hyperfi...
Hyperfine spectra of 48-51K (Z = 19) isotopes were measured at ISOLDE (CERN) for the first time, pro...
Background: Ground-state spins and magnetic moments are sensitive to the nuclear wave function, thus...
Hyperfine spectra of 48-51K (Z = 19) isotopes were measured at ISOLDE (CERN) for the first time, pro...
Nuclear magnetic moments provide a sensitive test of nuclear wave functions, in particular those of ...
The hfs of a K atom in a magnetic field H exhibits pairs of lines whose frequencies differ by 2 goH,...
We report a fourfold improvement in the determination of nuclear magnetic moments for neutron-defici...
Nuclear ground-state properties, such as spin, charge radius, and magnetic dipole and electric quadr...
Calculations of the magnetic hyperfine structure rely on the input of nuclear properties - nuclear m...
Nuclear ground-state properties, such as spin, charge radius, and magnetic dipole and electric quadr...
We report on the measurement of optical isotope shifts for 38, 39, 42, 44, 46–51K relative to 47K fr...
Nuclear ground-state properties, such as spin, charge radius, and magnetic dipole and electric quadr...
Portion of a thesis. "January 28, 1952."Bibliography: p. 32.Army Signal Corps Contract No. DA 36-039...
A method for determining the hyperfine anomaly, without using the nuclear magnetic moments, is used ...
In this paper the proton, neutron and matter density distributions and the corresponding root mean s...
Resonance scattering of light as function of magnetic field has been used to investigate the hyperfi...
Hyperfine spectra of 48-51K (Z = 19) isotopes were measured at ISOLDE (CERN) for the first time, pro...