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Title:	SURPASSING THE STANDARD QUANTUM LIMIT FOR HIGH SENSITIVITY MEASUREMENTS IN OPTICAL IMAGES USING MULTIMODE NON CLASSICAL LIGHT
DOI No:	10.1142/9789812703002_0050
Source:	LASER SPECTROSCOPY (pp 334-341)
Author(s):	C. FABRE Laboratoire Kastler Brossel, University Pierre et Marie Curie, Case 74, 75252 Paris cedex 05, France S. GIGAN Laboratoire Kastler Brossel, University Pierre et Marie Curie, Case 74, 75252 Paris cedex 05, France A. MAÎTRE Laboratoire Kastler Brossel, University Pierre et Marie Curie, Case 74, 75252 Paris cedex 05, France M. MARTINELLI Laboratoire Kastler Brossel, University Pierre et Marie Curie, Case 74, 75252 Paris cedex 05, France N. TREPS Laboratoire Kastler Brossel, University Pierre et Marie Curie, Case 74, 75252 Paris cedex 05, France U. ANDERSEN Department of Physics, Faculty of Science, Australian National University , Canberra, ACT 0200, Australia P.K. LAM Department of Physics, Faculty of Science, Australian National University , Canberra, ACT 0200, Australia W. BOWEN Department of Physics, Faculty of Science, Australian National University , Canberra, ACT 0200, Australia B. BUCHLER Department of Physics, Faculty of Science, Australian National University , Canberra, ACT 0200, Australia N. GROSSE Department of Physics, Faculty of Science, Australian National University , Canberra, ACT 0200, Australia H.-A. BACHOR Department of Physics, Faculty of Science, Australian National University , Canberra, ACT 0200, Australia
Abstract:	The existence of quantum fluctuations of light inevitably degrades the quality of information extraction from any optical image. We define the corresponding limit when the image is carried by coherent light (“standard quantum limit”). We then show that single-transverse-mode non-classical light, such as TEM00 sub-Poissonian light, cannot be used to go beyond this limit. We describe two experimental techniques for generating multimode non-classical light: the first one uses an Optical Parametric Oscillator inserted in a confocal cavity; the second one synthesizes the multi-transverse mode beam from its single mode components. We finally show that this latter technique has allowed us to beat the standard quantum limit in the ultra-precise positioning of the center of a light beam in the transverse plane.
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