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@@ -4729,3 +4729,24 @@ eprint = {http://www.tandfonline.com/doi/pdf/10.1080/09500340903159495}
doi = {10.1364/OE.15.011849},
abstract = {A probe light in a squeezed vacuum state was injected into cold $^{87}$Rb atoms with an intense control light in a coherent state. A sub-MHz window was created due to electromagnetically induced transparency, and the incident squeezed vacuum could pass through the cold atoms without optical loss, as was successfully monitored using a time-domain homodyne method.},
}
+
+@Article{mikhailov2012sq_magnetometer,
+ author = "Travis Horrom and Robinjeet Singh and Jonathan P. Dowling and Eugeniy E. Mikhailov",
+ title = "Quantum Enhanced Magnetometer with Low Frequency Squeezing",
+ eprint = "1202.3831",
+ archivePrefix = "arXiv",
+ year = "2012",
+ pages = "",
+ url = "http://arxiv.org/abs/1202.3831",
+ abstract = {
+ W e report the demonstration of a magnetometer with broadband noise-floor
+ reduction below the shot-noise level. This magnetometer, based on a
+ nonlinear magneto-optical rotation effect, is enhanced by the injection of
+ a squeezed vacuum state into its input. The noise spectrum shows squeezed
+ noise reduction of about 2 dB spanning from close to 100 Hz to several
+ megahertz. We also report on the observation of two different regimes of
+ operation of such a magnetometer: one in which the detection noise is
+ limited by the quantum noise of the light probe only, and one in which we
+ see additional noise from the light-atom interaction.}
+}
+