Add to ORKGIt has been proposed that the radio-frequency electric-dipole (E1) transition between two nearly degenerate opposite-parity states in atomic dysprosium should be highly sensitive to possible temporal variation of the fine structure constant ($\alpha$) [V. A. Dzuba, V. V. Flambaum, and J. K. Webb, Phys. Rev. A {\bf 59}, 230 (1999)]. We discuss here an experimental realization of the proposed search, which involves monitoring the E1 transition frequency over a period of time using direct frequency counting techniques. We estimate that a statistical sensitivity of $|\adota| \sim 10^{-18}$/yr may be achieved and discuss possible systematic effects in such a measurement
We report a new upper limit on the electric dipole moment (EDM) of the electron of d{sub e} = 0.1 {p...
We demonstrate a new technique for measuring the absolute frequencies of atomic transitions. The tec...
We report values for the $D_1$-line frequencies with 0.13 ppb uncertainty in the alkali atoms $^{39}...
Electric-dipole transitions between nearly degenerate, opposite parity levels of atomic dysprosium (...
Over a period of eight months, we have monitored transition frequencies between nearly degenerate, o...
We report on the spectroscopy of radio-frequency transitions between nearly-degenerate, opposite-par...
Atomic clocks, the most accurate instruments in existence, are reaching new levels of precision. The...
Optical clocks realize transition frequencies between atomic energy levels with a relative uncertain...
Atomic clocks, the most accurate instruments in existence, are reaching new levels of precision. The...
We perform accurate calculations of the dependence of transition frequencies in two valence electron...
We present measurements of the hyperfine coefficients and isotope shifts of the Dy I 683.731 nm tran...
We describe experiments with an optical frequency standard based on a laser cooled $^{171}$Yb$^+$ io...
Transition frequencies were determined for transitions in Ra in an atomic beam and for reference lin...
The issue of the possibility of a temporal variation of the fundamental constants has been put high ...
Theories unifying gravity with other interactions suggest spatial and temporal variation of fundamen...
We report a new upper limit on the electric dipole moment (EDM) of the electron of d{sub e} = 0.1 {p...
We demonstrate a new technique for measuring the absolute frequencies of atomic transitions. The tec...
We report values for the $D_1$-line frequencies with 0.13 ppb uncertainty in the alkali atoms $^{39}...
Electric-dipole transitions between nearly degenerate, opposite parity levels of atomic dysprosium (...
Over a period of eight months, we have monitored transition frequencies between nearly degenerate, o...
We report on the spectroscopy of radio-frequency transitions between nearly-degenerate, opposite-par...
Atomic clocks, the most accurate instruments in existence, are reaching new levels of precision. The...
Optical clocks realize transition frequencies between atomic energy levels with a relative uncertain...
Atomic clocks, the most accurate instruments in existence, are reaching new levels of precision. The...
We perform accurate calculations of the dependence of transition frequencies in two valence electron...
We present measurements of the hyperfine coefficients and isotope shifts of the Dy I 683.731 nm tran...
We describe experiments with an optical frequency standard based on a laser cooled $^{171}$Yb$^+$ io...
Transition frequencies were determined for transitions in Ra in an atomic beam and for reference lin...
The issue of the possibility of a temporal variation of the fundamental constants has been put high ...
Theories unifying gravity with other interactions suggest spatial and temporal variation of fundamen...
We report a new upper limit on the electric dipole moment (EDM) of the electron of d{sub e} = 0.1 {p...
We demonstrate a new technique for measuring the absolute frequencies of atomic transitions. The tec...
We report values for the $D_1$-line frequencies with 0.13 ppb uncertainty in the alkali atoms $^{39}...