S. K. Lamoreaux scite author profile

Library of Congress Cataloging-in-Publication Data. Khriplovich, 1. B. (Iosif Bentsionovich) CP violation without strangeness: electric dipole moments of particles, atoms, and molecules IIosif B. Khriplovich, Steve K. Lamoreaux. p. em. -(Texts and monographs in physics, ISSN 0172-5998) Includes bibliographical references and index. 1. CP violation (Nuclear physics) 2. Time reversal. 3. Dipole moments.

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Observation of the thermal Casimir force

Sushkov

et al. 2011

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Quantum theory predicts the existence of the Casimir force between macroscopic bodies, due to the zero-point energy of electromagnetic field modes around them. This quantum fluctuation-induced force has been experimentally observed for metallic and semiconducting bodies, although the measurements to date have been unable to clearly settle the question of the correct low-frequency form of the dielectric constant dispersion (the Drude model or the plasma model) to be used for calculating the Casimir forces. At finite temperature a thermal Casimir force, due to thermal, rather than quantum, fluctuations of the electromagnetic field, has been theoretically predicted long ago. Here we report the experimental observation of the thermal Casimir force between two gold plates. We measured the attractive force between a flat and a spherical plate for separations between 0.7 $\mu$m and 7 $\mu$m. An electrostatic force caused by potential patches on the plates' surfaces is included in the analysis. The experimental results are in excellent agreement (reduced $\chi^2$ of 1.04) with the Casimir force calculated using the Drude model, including the T=300 K thermal force, which dominates over the quantum fluctuation-induced force at separations greater than 3 $\mu$m. The plasma model result is excluded in the measured separation range.Comment: 6 page

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Search for a coupling of the Earth’s gravitational field to nuclear spins in atomic mercury

et al. 1992

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Practical Free-Space Quantum Key Distribution over 1 km

et al. 1998

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Abstract. A working free-space quantum key distribution (QKD) system has been developed and tested over an outdoor optical path of ∼ 1 km at Los Alamos National Laboratory under nighttime conditions. Results show that QKD can provide secure real-time key distribution between parties who have a need to communicate secretly. Finally, we examine the feasibility of surface to satellite QKD.Quantum cryptography was introduced in the mid1980s [1] as a new method for generating the shared, secret random number sequences, known as cryptographic keys, that are used in crypto-systems to provide communications security. The appeal of quantum cryptography is that its security is based on laws of nature, in contrast to existing methods of key distribution that derive their security from the perceived intractability of certain problems in number theory, or from the physical security of the distribution process.Since the introduction of quantum cryptography, several groups have demonstrated quantum communications [2,3] and quantum key distribution [4-9] over multikilometer distances of optical fiber. Free-space QKD (over an optical path of ∼ 30 cm) was first introduced in 1991 [12], and recent advances have led to demonstrations of QKD over free-space indoor optical paths of 205 m [10], and outdoor optical paths of 75 m [11]. These demonstrations increase the utility of QKD by extending it to line-of-site laser communications systems. Indeed there are certain key distribution problems in this category for which free-space QKD would have definite practical advantages (for example, it is impractical to send a courier to a satellite). We are developing such QKD, and here we report our results of free-space QKD over outdoor optical paths of up to 950 m under nighttime conditions. The success of QKD over free-space optical paths depends on the transmission and detection of singlephotons against a high background through a turbulent medium. Although this problem is difficult, a combination of sub-nanosecond timing, narrow filters [13,14], spatial filtering [10] and adaptive optics [15] can render the transmission and detection problems tractable. Furthermore, the essentially non-birefringent nature of the atmosphere at optical wavelengths allows the faithful transmission of the single-photon polarization states used in the free-space QKD protocol.A QKD procedure starts with the sender, "Alice," gen-

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New Limits on Local Lorentz Invariance from Hg and Cs Magnetometers

et al. 1995

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The relative frequency of Hg and Cs mgnetometers is monitored as a function of the orientation of the applied magnetic field with respect to the fixed stars. The observed stability of the relative frequency limits electron and nucleon local Lorentz invariance violating effects to less than 200 p, Hz and 110 nHz, respectively. These results represent an improvement over the best published results by an order of magnitude for electron effects and by a factor of 240 for nuclear effects. The result also sets an upper limit of 200 eV on the Fermi level of a degenerate remnant neutrino background.

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S. K. Lamoreaux

CP Violation Without Strangeness

Observation of the thermal Casimir force

Search for a coupling of the Earth’s gravitational field to nuclear spins in atomic mercury

Practical Free-Space Quantum Key Distribution over 1 km

New Limits on Local Lorentz Invariance from Hg and Cs Magnetometers

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