Title :
Alternative Algorithm for Temperature Measurements of Cold Atoms in Cs Fountain Clocks
Author :
Espinosa-Olivares, Maria G. ; de Carlos-Lopez, Eduardo ; Lopez-Romero, Jose Mauricio ; Lopez-Lopez, Sergio
Author_Institution :
Div. de Cienc. e Ingenierias, Univ. de Guanajuato, Leon, Mexico
Abstract :
We report an alternative algorithm to the deconvolution method for obtaining Gaussian velocity distribution for temperature measurements in Cs fountain clocks. We estimate the velocity distribution of the cloud of cold atoms from time-of-flight signals, at different times, by calculating the square speed point by point (PBP). Then, the temperature of the Cs atomic cloud is inferred from the width (e-1/2) of the velocity distribution. We have done an exhaustive comparison of the PBP algorithm with the deconvolution method using both theoretical and experimental data for Gaussian velocity distributions. Finally, when comparing the process to obtain the velocity distribution in both the PBP algorithm and the deconvolution method, it is found that our approach is easier to implement and automate.
Keywords :
Gaussian distribution; atomic clocks; deconvolution; temperature measurement; velocity measurement; Gaussian velocity distribution estimation; PBP calculation; cold atom; deconvolution method; fountain clock; square speed point by point calculation; temperature measurement; time-of-flight signal; Atomic clocks; Atomic measurements; Clouds; Deconvolution; Temperature distribution; Temperature measurement; Atomic clocks; atomic physics; cooling; deconvolution; temperature measurement; temperature measurement.;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2015.2390956
