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1. The Space Atom Interferometer project: status and prospects

Author

Sorrentino, F., Bongs, K., Bouyer, P., Cacciapuoti, L., Angelis, M. de, Dittus, H., Ertmer, W., Hartwig, J., Hauth, M., Herrmann, S., Huang, K., Inguscio, M., Kajari, E., Könemann, T., Lämmerzahl, C., Landragin, A., Modugno, G., Pereira dos Santos, F., Peters, A., Prevedelli, M., Rasel, E. M., Schleich, W. P., Schmidt, M., Senger, A., Sengstock, K., Stern, G., Tino, G. M., Valenzuela, T., Walser, R., Windpassinger, P., Sorrentino, F., Bongs, K., Bouyer, P., Cacciapuoti, L., Angelis, M. de, Dittus, H., Ertmer, W., Hartwig, J., Hauth, M., Herrmann, S., Huang, K., Inguscio, M., Kajari, E., Könemann, T., Lämmerzahl, C., Landragin, A., Modugno, G., Pereira dos Santos, F., Peters, A., Prevedelli, M., Rasel, E. M., Schleich, W. P., Schmidt, M., Senger, A., Sengstock, K., Stern, G., Tino, G. M., Valenzuela, T., Walser, R., and Windpassinger, P.

Abstract

This paper presents the current status and future prospects of the Space Atom Interferometer project (SAI), funded by the European Space Agency. Atom interferometry provides extremely sensitive and accurate tools for the measurement of inertial forces. Operation of atom interferometers in microgravity is expected to enhance the performance of such sensors. Main goal of SAI is to demonstrate the possibility of placing atom interferometers in space. The resulting drop-tower compatible atom interferometry acceleration sensor prototype is described. Expected performance limits and potential scientific applications in a micro-gravity environment are also discussed.

Published
2024

2. Tailored quantum statistics from broadband states of light

Author

Hartmann, S., Friedrich, F., Molitor, A., Reichert, M., Elsäßer, W., and Walser, R.

Subjects
Quantum Physics, Physics - Optics
Abstract

We analyze the statistics of photons originating from amplified spontaneous emission generated by a quantum dot superluminescent diode. Experimentally detectable emission properties are taken into account by parametrizing the corresponding quantum state as a multi-mode phase-randomized Gaussian density operator. The validity of this model is proven in two subsequent experiments using fast two-photon-absorption detection observing second order equal-time- as well as second order fully time-resolved intensity correlations on femtosecond timescales. In the first experiment, we study the photon statistics when the number of contributing longitudinal modes is systematically reduced by applying well-controlled optical feedback. In a second experiment, we add coherent light from a single-mode laserdiode to quantum dot superluminescent diode broadband radiation. Tuning the power ratio, we realize tailored second order correlations ranging from Gaussian to Poissonian statistics. Both experiments are very well matched by theory, thus giving first insights into quantum properties of radiation from quantum dot superluminescent diodes., Comment: submitted to New Journal of Physics

Published
2014
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3. STE-QUEST - Test of the Universality of Free Fall Using Cold Atom Interferometry

Author

Aguilera, D., Ahlers, H., Battelier, B., Bawamia, A., Bertoldi, A., Bondarescu, R., Bongs, K., Bouyer, P., Braxmaier, C., Cacciapuoti, L., Chaloner, C., Chwalla, M., Ertmer, W., Franz, M., Gaaloul, N., Gehler, M., Gerardi, D., Gesa, L., Gürlebeck, N., Hartwig, J., Hauth, M., Hellmig, O., Herr, W., Herrmann, S., Heske, A., Hinton, A., Ireland, P., Jetzer, P., Johann, U., Krutzik, M., Kubelka, A., Lämmerzahl, C., Landragin, A., Lloro, I., Massonnet, D., Mateos, I., Milke, A., Nofrarias, M., Oswald, M., Peters, A., Posso-Trujillo, K., Rasel, E., Rocco, E., Roura, A., Rudolph, J., Schleich, W., Schubert, C., Schuldt, T., Seidel, S., Sengstock, K., Sopuerta, C. F., Sorrentino, F., Summers, D., Tino, G. M., Trenkel, C., Uzunoglu, N., von Klitzing, W., Walser, R., Wendrich, T., Wenzlawski, A., Weßels, P., Wicht, A., Wille, E., Williams, M., Windpassinger, P., and Zahzam, N.

Subjects
Quantum Physics, General Relativity and Quantum Cosmology, Physics - Atomic Physics, Physics - Space Physics
Abstract

The theory of general relativity describes macroscopic phenomena driven by the influence of gravity while quantum mechanics brilliantly accounts for microscopic effects. Despite their tremendous individual success, a complete unification of fundamental interactions is missing and remains one of the most challenging and important quests in modern theoretical physics. The STE-QUEST satellite mission, proposed as a medium-size mission within the Cosmic Vision program of the European Space Agency (ESA), aims for testing general relativity with high precision in two experiments by performing a measurement of the gravitational redshift of the Sun and the Moon by comparing terrestrial clocks, and by performing a test of the Universality of Free Fall of matter waves in the gravitational field of Earth comparing the trajectory of two Bose-Einstein condensates of Rb85 and Rb87. The two ultracold atom clouds are monitored very precisely thanks to techniques of atom interferometry. This allows to reach down to an uncertainty in the E\"otv\"os parameter of at least 2x10E-15. In this paper, we report about the results of the phase A mission study of the atom interferometer instrument covering the description of the main payload elements, the atomic source concept, and the systematic error sources., Comment: 21 pages, 5 figures

Published
2013
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4. Immersing carbon nano-tubes in cold atomic gases

Author

Weiß, C. T., Mironova, P. V., Fortágh, J., Schleich, W. P., and Walser, R.

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Quantum Gases
Abstract

We investigate the sympathetic relaxation of a free-standing, vibrating carbon nano-tube that is mounted on an atom chip and is immersed in a cloud of ultra-cold atoms. Gas atoms colliding with the nano-tube excite phonons via a Casimir-Polder potential. We use Fermi's Golden Rule to estimate the relaxation rates for relevant experimental parameters and develop a fully dynamic theory of relaxation for the multi-mode phononic field embedded in a thermal atomic reservoir. Based on currently available experimental data, we identify the relaxation rates as a function of atom density and temperature that are required for sympathetic ground state cooling of carbon nano-tubes., Comment: 12 pages, 3 color eps figures refereed, improved version, to be published in Phys. Rev. A

Published
2013
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5. Interferometry with Bose-Einstein Condensates in Microgravity

Author

Müntinga, H., Ahlers, H., Krutzik, M., Wenzlawski, A., Arnold, S., Becker, D., Bongs, K., Dittus, H., Duncker, H., Gaaloul, N., Gherasim, C., Giese, E., Grzeschik, C., Hänsch, T. W., Hellmig, O., Herr, W., Herrmann, S., Kajari, E., Kleinert, S., Lämmerzahl, C., Lewoczko-Adamczyk, W., Malcolm, J., Meyer, N., Nolte, R., Peters, A., Popp, M., Reichel, J., Roura, A., Rudolph, J., Schiemangk, M., Schneider, M., Seidel, S. T., Sengstock, K., Tamma, V., Valenzuela, T., Vogel, A., Walser, R., Wendrich, T., Windpassinger, P., Zeller, W., van Zoest, T., Ertmer, W., Schleich, W. P., and Rasel, E. M.

Subjects
Physics - Atomic Physics, Condensed Matter - Quantum Gases, Quantum Physics
Abstract

Atom interferometers covering macroscopic domains of space-time are a spectacular manifestation of the wave nature of matter. Due to their unique coherence properties, Bose-Einstein condensates are ideal sources for an atom interferometer in extended free fall. In this paper we report on the realization of an asymmetric Mach-Zehnder interferometer operated with a Bose-Einstein condensate in microgravity. The resulting interference pattern is similar to the one in the far-field of a double-slit and shows a linear scaling with the time the wave packets expand. We employ delta-kick cooling in order to enhance the signal and extend our atom interferometer. Our experiments demonstrate the high potential of interferometers operated with quantum gases for probing the fundamental concepts of quantum mechanics and general relativity., Comment: 8 pages, 3 figures; 8 pages of supporting material

Published
2013
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6. The emergence of atomic semifluxons in optical Josephson junctions

Author

Grupp, M., Schleich, W. P., Goldobin, E., Koelle, D., Kleiner, R., and Walser, R.

Subjects
Condensed Matter - Quantum Gases
Abstract

We propose to create pairs of semifluxons starting from a flat-phase state in long, optical 0-pi-0 Josephson junctions formed with internal electronic states of atomic Bose-Einstein condensates. In this optical system, we can dynamically tune the length of the pi-junction, the detuning of the optical transition, or the strength of the laser-coupling, to induce transitions from the flat-phase state to such a semifluxon-pair state. Similarly as in superconducting 0-pi-0 junctions, there are two, energetically degenerate semifluxon-pair states. A linear mean-field model with two internal electronic states explains this degeneracy and shows the distinct static field configuration in a phase-diagram of the junction parameters. This optical system offers the possibility to dynamically create a coherent superposition of the distinct semifluxon-pair states and observe macroscopic quantum oscillation., Comment: 5 pages latex, 4 eps figures

Published
2012
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7. The granularity of weakly occupied bosonic fields beyond the local density approximation

Author

Eckart, M., Walser, R., Schleich, W. P., Zöllner, S., and Schmelcher, P.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

We examine ground state correlations for repulsive, quasi one-dimensional bosons in a harmonic trap. In particular, we focus on the few particle limit N=2,3,4,..., where exact numerical solutions of the many particle Schroedinger equation are available employing the Multi-Configuration Time-dependent Hartree method. Our numerical results for the inhomogeneous system are modeled with the analytical solution of the homogeneous problem using the Bethe ansatz and the local density approximation. Tuning the interaction strength from the weakly correlated Gross-Pitaevskii- to the strongly correlated Tonks-Girardeau regime reveals finite particle number effects in the second order correlation function beyond the local density approximation., Comment: 20 pages, 9 figures, submitted to NJP

Published
2008
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8. Semifluxons in Superconductivity and Cold Atomic Gases

Author

Walser, R., Goldobin, E., Crasser, O., Koelle, D., Kleiner, R., and Schleich, W. P.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Superconductivity
Abstract

Josephson junctions and junction arrays are well studied devices in superconductivity. With external magnetic fields one can modulate the phase in a long junction and create traveling, solitonic waves of magnetic flux, called fluxons. Today, it is also possible to device two different types of junctions: depending on the sign of the critical current density, they are called 0- or pi-junction. In turn, a 0-pi junction is formed by joining two of such junctions. As a result, one obtains a pinned Josephson vortex of fractional magnetic flux, at the 0-pi boundary. Here, we analyze this arrangement of superconducting junctions in the context of an atomic bosonic quantum gas, where two-state atoms in a double well trap are coupled in an analogous fashion. There, an all-optical 0-pi Josephson junction is created by the phase of a complex valued Rabi-frequency and we a derive a discrete four-mode model for this situation, which qualitatively resembles a semifluxon., Comment: 15 pages (Latex), 6 color figures (eps)

Published
2008
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9. Exploring the growth of correlations in a quasi one-dimensional trapped Bose gas

Author

Eckart, M., Walser, R., and Schleich, W. P.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Phase correlations, density fluctuations and three-body loss rates are relevant for many experiments in quasi one-dimensional geometries. Extended mean-field theory is used to evaluate correlation functions up to third order for a quasi one-dimensional trapped Bose gas at zero and finite temperature. At zero temperature and in the homogeneous limit, we also study the transition from the weakly correlated Gross-Pitaevskii regime to the strongly correlated Tonks-Girardeau regime analytically. We compare our results with the exact Lieb-Liniger solution for the homogeneous case and find good agreement up to the cross-over regime., Comment: 36 pages, 21 color pdf/jpeg figures, submitted to NJP, corrected references

Published
2007
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10. A number filter for matter-waves

Author

Nandi, G., Sizmann, A., Fortágh, J., and Walser, R.

Subjects
Quantum Physics
Abstract

In current Bose-Einstein condensate experiments, the shot-to-shot variation of atom number fluctuates up to 10%. In here, we present a procedure to suppress such fluctuations by using a nonlinear p-pi-pbar matter wave interferometer for a Bose-Einstein condensate with two internal states and a high beam-splitter asymmetry (p, pbar not-equal 0.5). We analyze the situation for an inhomogeneous trap within the Gross-Pitaevskii mean-field theory, as well as a quantum mechanical Josephson model, which addresses complementary aspects of the problem and agrees well otherwise., Comment: 7 pages Latex, 5 eps color figures

Published
2007
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11. Resonant Feshbach scattering of fermions in one-dimensional optical lattices

Author

Grupp, M., Walser, R., Schleich, W. P., Muramatsu, A., and Weitz, M.

Subjects
Physics - Atomic and Molecular Clusters, Physics - Atomic Physics
Abstract

We consider Feshbach scattering of fermions in a one-dimensional optical lattice. By formulating the scattering theory in the crystal momentum basis, one can exploit the lattice symmetry and factorize the scattering problem in terms of center-of-mass and relative momentum in the reduced Brillouin zone scheme. Within a single band approximation, we can tune the position of a Feshbach resonance with the center-of-mass momentum due to the non-parabolic form of the energy band.

Published
2007
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12. Dropping cold quantum gases on Earth over long times and large distances

Author

Nandi, G., Walser, R., Kajari, E., and Schleich, W. P.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

We describe the non-relativistic time evolution of an ultra-cold degenerate quantum gas (bosons/fermions) falling in Earth's gravity during long times (10 sec) and over large distances (100 m). This models a drop tower experiment that is currently performed by the QUANTUS collaboration at ZARM (Bremen, Germany). Starting from the classical mechanics of the drop capsule and a single particle trapped within, we develop the quantum field theoretical description for this experimental situation in an inertial frame, the corotating frame of the Earth, as well as the comoving frame of the drop capsule. Suitable transformations eliminate non-inertial forces, provided all external potentials (trap, gravity) can be approximated with a second order Taylor expansion around the instantaneous trap center. This is an excellent assumption and the harmonic potential theorem applies. As an application, we study the quantum dynamics of a cigar-shaped Bose-Einstein condensate in the Gross-Pitaevskii mean-field approximation. Due to the instantaneous transformation to the rest-frame of the superfluid wave packet, the long-distance drop (100m) can be studied easily on a numerical grid., Comment: 18 pages latex, 5 eps figures, submitted

Published
2006
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13. Quantum Dynamics of Atomic Coherence in a Spin-1 Condensate: Mean-Field versus Many-Body Simulation

Author

Plimak, L. I., Weiß, C., Walser, R., and Schleich, W. P.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

We analyse and numerically simulate the full many-body quantum dynamics of a spin-1 condensate in the single spatial mode approximation. Initially, the condensate is in a ``ferromagnetic'' state with all spins aligned along the $y$ axis and the magnetic field pointing along the z axis. In the course of evolution the spinor condensate undergoes a characteristic change of symmetry, which in a real experiment could be a signature of spin-mixing many-body interactions. The results of our simulations are conveniently visualised within the picture of irreducible tensor operators., Comment: Accepted for publication for the special issue of "Optics Communications" on Quantum Control of Light and Matter

Published
2006
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14. Collective Feshbach scattering of a superfluid droplet from a mesoscopic two-component Bose-Einstein condensate

Author

Grupp, M., Nandi, G., Walser, R., and Schleich, W. P.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We examine the collective scattering of a superfluid droplet impinging on a mesoscopic Bose-Einstein condensate (BEC) as a target. The BEC consists of an atomic gas with two internal electronic states, each of which is trapped by a finite-depth external potential. An off-resonant optical laser field provides a localized coupling between the BEC components in the trapping region. This mesoscopic scenario matches the microscopic setup for Feshbach scattering of two particles, when a bound state of one sub-manifold is embedded in the scattering continuum of the other sub-manifold. Within the mean-field picture, we obtain resonant scattering phase shifts from a linear response theory in agreement with an exact numerical solution of the real time scattering process and simple analytical approximations thereof. We find an energy-dependent transmission coefficient that is controllable via the optical field between 0 and 100%., Comment: 4 Latex pages, including 4 figures

Published
2005
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15. Evolution of a spinor condensate: coherent dynamics, dephasing and revivals

Author

Kronjäger, J., Becker, C., Brinkmann, M., Walser, R., Navez, P., Bongs, K., and Sengstock, K.

Subjects
Condensed Matter - Other Condensed Matter
Abstract

We present measurements and a theoretical model for the interplay of spin dependent interactions and external magnetic fields in atomic spinor condensates. We highlight general features like quadratic Zeeman dephasing and its influence on coherent spin mixing processes by focusing on a specific coherent superposition state in a F=1 $^{87}$Rb Bose-Einstein condensate. In particular, we observe the transition from coherent spinor oscillations to thermal equilibration.

Published
2005
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16. Quantum tunneling of semifluxons

Author

Goldobin, E., Vogel, K., Crasser, O., Walser, R., Schleich, W. P., Koelle, D., and Kleiner, R.

Subjects
Condensed Matter - Superconductivity
Abstract

We consider a system of two semifluxons of opposite polarity in a 0-pi-0 long Josephson junction, which classically can be in one of two degenerate states: up-down or down-up. When the distance $a$ between the 0-pi boundaries (semifluxon's centers) is a bit larger than the crossover distance $a_c$, the system can switch from one state to the other due to thermal fluctuations or quantum tunneling. We map this problem to the dynamics of a single particle in a double well potential and estimate parameters for which quantum effects emerge. We also determine the classical-to-quantum crossover temperature as well as the tunneling rate (energy level splitting) between the states up-down and down-up., Comment: submitted to PRB, comments/questions are welcome

Published
2005
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17. Ground state correlations in a trapped quasi one-dimensional Bose Gas

Author

Walser, R.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We review the basic concepts of a non-equilibrium kinetic theory of a trapped bosonic gas. By extending the successful mean-field concept of the Gross-Pitaevskii equation with the effects of non-local, two particle quantum correlations, one obtains a renormalized binary interaction and allows for the dynamic establishment of non-classical many-particle quantum correlations. These concepts are illustrated by self-consistent numerical calculations of the first and second order ground state quantum correlations of a harmonically trapped, quasi one-dimensional bosonic gas. We do find a strong suppression of the density fluctuations or, in other words, an enhanced number squeezing with decreasing particle density., Comment: 19 pages LaTeX, 19 color figures, to be published in the special issue on "Degenerate Quantum Gases" in Opt. Com. (2004)

Published
2004
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18. Sagnac Effect of Goedel's Universe

Author

Kajari, E., Walser, R., Schleich, W. P., and Delgado, A.

Subjects
General Relativity and Quantum Cosmology
Abstract

We present exact expressions for the Sagnac effect of Goedel's Universe. For this purpose we first derive a formula for the Sagnac time delay along a circular path in the presence of an arbitrary stationary metric in cylindrical coordinates. We then apply this result to Goedel's metric for two different experimental situations: First, the light source and the detector are at rest relative to the matter generating the gravitational field. In this case we find an expression that is formally equivalent to the familiar nonrelativistic Sagnac time delay. Second, the light source and the detector are rotating relative to the matter. Here we show that for a special rotation rate of the detector the Sagnac time delay vanishes. Finally we propose a formulation of the Sagnac time delay in terms of invariant physical quantities. We show that this result is very close to the analogous formula of the Sagnac time delay of a rotating coordinate system in Minkowski spacetime., Comment: 26 pages, including 4 figures, corrected typos, changed references

Published
2004
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19. How to STIRAP a vortex

Author

Nandi, G., Walser, R., and Schleich, W. P.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We examine a scheme for the optical creation of a superfluid vortex in a trapped Bose-Einstein condensate (BEC), using the stimulated Raman adiabatic passage (STIRAP) technique. By exposing an oblate, axis-symmetric condensate to two co-propagating laser pulses, one can transfer external angular momentum from the light field to the matter wave, if one of the beams is the fundamental Gaussian mode and the other is a Gauss-Laguerre mode of angular momentum $1\hbar$. We demonstrate the complete transfer efficiency by numerical integration of the multi-component Gross-Pitaevskii equation and explain the results with an intuitive and accurate approximation within the Thomas-Fermi limit. In addition, we discuss residual excitations (breathing modes) which occur in the two-dimensional regime and present the Bogoliubov excitation spectrum., Comment: 8 pages, 10 eps-figures, slightly revised and resubmitted to PRA

Published
2004

21. Gapless kinetic theory beyond the Popov approximation

Author

Wachter, J., Walser, R., Cooper, J., and Holland, M.

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We present a unified kinetic theory that describes the finite-temperature, non-equilibrium dynamics of a Bose-Einstein condensed gas interacting with a thermal cloud. This theory includes binary interactions to second order in the interaction potential and reduces to a diagonal quantum Boltzmann equation for Bogoliubov quasiparticles. The Hartree-Fock-Bogoliubov interactions include the pairing field and are expressed as many-body $T$ matrices to second order. The interactions thus include the correct renormalized scattering physics. This renormalized theory is automatically gapless. Thus, the excited Bogoliubov modes are naturally orthogonal to the condensate ground state., Comment: 12 pgs, 3 figs, RevTeX4, submitted to PRA

Published
2002

22. Microscopic nonequilibrium dynamics of an inhomogeneous Bose gas beyond the Born approximation

Author

Bhongale, S. G., Walser, R., and Holland, M. J.

Subjects
Condensed Matter
Abstract

Using the prescription of the nonequilibrium statistical operator method, we derive a non-Markovian generalization to the kinetic theory described by Walser {\sl et al.} [Phys. Rev. A {\bf 59}, 3878 (1999)]. Quasi-particle damping and effects arising from the finite duration of a collision are introduced to include terms beyond the Born approximation. Such a self-consistent theory is shown to conserve energy to second order in the interaction strength, even in the Markov limit. This kinetic theory is applied to a simple model of a Bose gas confined in a spherical trap to study the full real-time evolution towards equilibrium. A modified form for the damping function, is seen to strongly improve the energy conservation. Based on a linear response calculation, we predict the damping rates and frequencies of the collective excitations. We demonstrate the emergence of differing time scales for damping and equilibration., Comment: 11 figures, submitted to Phys. Rev. A

Published
2002
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23. Resonance Superfluidity: Renormalization of Resonance Scattering Theory

Author

Kokkelmans, S. J. J. M. F., Milstein, J. N., Chiofalo, M. L., Walser, R., and Holland, M. J.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We derive a theory of superfluidity for a dilute Fermi gas that is valid when scattering resonances are present. The treatment of a resonance in many-body atomic physics requires a novel mean-field approach starting from an unconventional microscopic Hamiltonian. The mean-field equations incorporate the microscopic scattering physics, and the solutions to these equations reproduce the energy-dependent scattering properties. This theory describes the high-$T_c$ behavior of the system, and predicts a value of $T_c$ which is a significant fraction of the Fermi temperature. It is shown that this novel mean-field approach does not break down for typical experimental circumstances, even at detunings close to resonance. As an example of the application of our theory we investigate the feasibility for achieving superfluidity in an ultracold gas of fermionic $^6$Li., Comment: 15 pages, 10 figures

Published
2001
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24. Equivalence of Kinetic Theories of Bose-Einstein Condensation

Author

Wachter, J., Walser, R., Cooper, J., and Holland, M.

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We discuss the equivalence of two non-equilibrium kinetic theories that describe the evolution of a dilute, Bose-Einstein condensed atomic gas in a harmonic trap. The second-order kinetic equations of Walser et al. [PRA 63, 013607 (2001)] reduce to the Gross-Pitaevskii equation and the quantum Boltzmann equation in the low and high temperature limits, respectively. These kinetic equations can thus describe the system in equilibrium (finite temperature) as well as in non-equilibrium (real time). We have found this theory to be equivalent to the non-equilibrium Green's function approach originally proposed by Kadanoff and Baym and more recently applied to inhomogeneous trapped systems by M. Imamovi\'c-Tomasovi\'c and A. Griffin [arXiv:cond-mat/9911402]., Comment: REVTeX3, 6 pages, 2 eps figures, published version, minor changes

Published
2001
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25. Resonance superfluidity in a quantum degenerate Fermi gas

Author

Holland, M., Kokkelmans, S. J. J. M. F., Chiofalo, M. L., and Walser, R.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We consider the superfluid phase transition that arises when a Feshbach resonance pairing occurs in a dilute Fermi gas. We apply our theory to consider a specific resonance in potassium-40, and find that for achievable experimental conditions, the transition to a superfluid phase is possible at the high critical temperature of about 0.5 T_F. Observation of superfluidity in this regime would provide the opportunity to experimentally study the crossover from the superfluid phase of weakly-coupled fermions to the Bose-Einstein condensation of strongly-bound composite bosons., Comment: 4 pages, 3 figures

Published
2001
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26. Formation of Pairing Fields in Resonantly Coupled Atomic and Molecular Bose-Einstein Condensates

Author

Holland, M., Park, J., and Walser, R.

Subjects
Condensed Matter
Abstract

In this paper, we show that pair-correlations may play an important role in the quantum statistical properties of a Bose-Einstein condensed gas composed of an atomic field resonantly coupled with a corresponding field of molecular dimers. Specifically, pair-correlations in this system can dramatically modify the coherent and incoherent transfer between the atomic and molecular fields., Comment: 4 pages, 4 figures

Published
2000
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27. Reversible and irreversible evolution of a condensed bosonic gas

Author

Walser, R., Cooper, J., and Holland, M.

Subjects
Condensed Matter
Abstract

We have formulated a kinetic theory for a condensed atomic gas in a trap, i.e., a generalized Gross-Pitaevskii equation, as well as a quantum-Boltzmann equation for the normal and anomalous fluctuations [R. Walser et al., Phys. Rev. A, 59, 3878 (1999)]. In this article, the theory is applied to the case of an isotropic configuration and we present numerical and analytical results for the reversible real-time propagation, as well as irreversible evolution towards equilibrium., Comment: 15 pages RevTeX, 8 figures, reviewed PRA resubmission

Published
2000
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28. Excitation of a Dipole Topological Mode in a Strongly Coupled Two-Component Bose-Einstein Condensate

Author

Williams, J., Walser, R., Cooper, J., Cornell, E. A., and Holland, M.

Subjects
Condensed Matter
Abstract

Two internal hyperfine states of a Bose-Einstein condensate in a dilute magnetically trapped gas of ${}^{87}$Rb atoms are strongly coupled by an external field that drives Rabi oscillations between the internal states. Due to their different magnetic moments and the force of gravity, the trapping potentials for the two states are offset along the vertical axis, so that the dynamics of the internal and external degrees of freedom are inseparable. The rapid cycling between internal atomic states in the displaced traps results in an adiabatic transfer of population from the condensate ground state to its first antisymmetric topological mode. This has a pronounced effect on the internal Rabi oscillations, modulating the fringe visibility in a manner reminiscent of collapses and revivals. We present a detailed theoretical description based on zero-temperature mean-field theory., Comment: 10 pages, 8 eps figures included; submitted to PRA

Published
1999
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29. Quantum Kinetic Theory for a Condensed Bosonic Gas

Author

Walser, R., Williams, J., Cooper, J., and Holland, M.

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We present a kinetic theory for Bose-Einstein condensation of a weakly interacting atomic gas in a trap. Starting from first principles, we establish a Markovian kinetic description for the evolution towards equilibrium. In particular, we obtain a set of self-consistent master equations for mean fields, normal densities, and anomalous fluctuations. These kinetic equations generalize the Gross-Pitaevskii mean-field equations, and merge them consistently with a quantum-Boltzmann equation approach., Comment: 15 pages, no figures; reviewed version; to be published in PRA

Published
1998
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30. Nonlinear Josephson-type oscillations of a driven, two-component Bose-Einstein condensate

Author

Williams, J., Walser, R., Cooper, J., Cornell, E., and Holland, M.

Subjects
Condensed Matter
Abstract

We propose an experiment that would demonstrate nonlinear Josephson-type oscillations in the relative population of a driven, two-component Bose-Einstein condensate. An initial state is prepared in which two condensates exist in a magnetic trap, each in a different hyperfine state, where the initial populations and relative phase between condensates can be controlled within experimental uncertainty. A weak driving field is then applied, which couples the two internal states of the atom and consequently transfers atoms back and forth between condensates. We present a model of this system and investigate the effect of the mean field on the dynamical evolution., Comment: 4 pages, 3 figs

Published
1998
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31. A magnetic tomography of a cavity state

Author

Walser, R., Cirac, J. I., and Zoller, P.

Subjects
Physics - Atomic Physics
Abstract

A method to determine the state of a single quantized cavity mode is proposed. By adiabatic passage, the quantum state of the field is transfered completely onto an internal Zeeman sub-manifold of an atom. Utilizing a method of Newton and Young, we can determine this angular momentum state uniquely, by a finite number of magnetic dipole measurements with Stern-Gerlach analyzers. An example illustrates the influence of dissipation., Comment: 4 pages (LateX209 src), 3 figures(.eps), to be published in PRL

Published
1996
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32. Motion Tomography of a single trapped ion

Author

Poyatos, J. F., Walser, R., Cirac, J. I., Zoller, P., and Blatt, R.

Subjects
Physics - Atomic Physics
Abstract

A method for the experimental reconstruction of the quantum state of motion for a single trapped ion is proposed. It is based on the measurement of the ground state population of the trap after a sudden change of the trapping potential. In particular, we show how the Q function and the quadrature distribution can be measured directly. In an example we demonstrate the principle and analyze the sensibility of the reconstruction process to experimental uncertainties as well as to finite grid limitations. Our method is not restricted to the Lamb-Dicke Limit and works in one or more dimensions., Comment: 4 pages, Revtex format, 4 postscript figures, changed typographical errors

Published
1996
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33. Bose-Einstein Condensation in Microgravity

Author

van Zoest, T., Gaaloul, N., Singh, Y., Ahlers, H., Herr, W., Seidel, S. T., Ertmer, W., Rasel, E., Eckart, M., Kajari, E., Arnold, S., Nandi, G., Schleich, W. P., Walser, R., Vogel, A., Sengstock, K., Bongs, K., Lewoczko-Adamczyk, W., Schiemangk, M., Schuldt, T., Peters, A., Könemann, T., Müntinga, H., Lämmerzahl, C., Dittus, H., Steinmetz, T., Hänsch, T. W., and Reichel, J.

Published
2010
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34. Effect of a Videoconference-Based Online Group Intervention for Traumatic Stress in Parents of Children With Life-threatening Illness A Randomized Clinical Trial

Author

Muscara, F, McCarthy, MC, Rayner, M, Nicholson, JM, Dimovski, A, McMillan, L, Hearps, SJC, Yamada, J, Burke, K, Walser, R, Anderson, VA, Muscara, F, McCarthy, MC, Rayner, M, Nicholson, JM, Dimovski, A, McMillan, L, Hearps, SJC, Yamada, J, Burke, K, Walser, R, and Anderson, VA

Abstract

IMPORTANCE: A substantial proportion of parents whose child is diagnosed with a life-threatening illness experience high levels of distress that can lead to long-term mental health difficulties. This can affect the child's recovery. OBJECTIVE: To evaluate the efficacy of an acceptance and commitment therapy-based group intervention, delivered using videoconferencing, in reducing posttraumatic stress symptoms (PTSS) in these parents. DESIGN, SETTING, AND PARTICIPANTS: This study was a randomized clinical trial of an intervention for parents with elevated acute stress symptoms. It was a single-site study conducted in a tertiary pediatric hospital in Australia. Parents of children aged 0 to 18 years admitted for a life-threatening illness or injury to the oncology, cardiology, or pediatric intensive care departments were eligible. Participants were screened for eligibility within the first month after diagnosis or admission and then were randomized to the intervention group or the waiting list control group 4 to 10 months after diagnosis or admission. Recruitment commenced January 2014, and final postintervention follow-up was completed in February 2018. Data analysis was performed from July to September 2018. INTERVENTIONS: Treatment was a psychological acceptance and commitment therapy-based group therapy program called Take a Breath, which consisted of a 6-session parent-mediated psychological intervention delivered via online videoconferences over the course of 8 weeks. Waiting list control participants received treatment as usual and were offered the intervention 3 months after randomization. MAIN OUTCOMES AND MEASURES: The primary outcome was PTSS, as measured by the Posttraumatic Stress Disorder Checklist-Version 5 (total score range, 0-80, with higher scores indicating greater symptom severity). The PTSS was measured both before and immediately after the intervention. Changes in psychological skills taught within the intervention were also evaluated, including

Published
2020

37. A semiotic analysis of Nightwish’s Dark Passion Play (2007) and Imaginaerum (2011)

Author

Strauss, Suzanne, Viljoen, M., Walser, R., Thom Wium, Matildie, Strauss, Suzanne, Viljoen, M., Walser, R., and Thom Wium, Matildie

Abstract

Despite the ever-increasing interest in scholarly research on metal, the sonic investigation of metal songs remains essentially neglected. My study aims to contribute to the musicological investigation of metal. In this regard, my study is an analysis of four of Finnish symphonic metal band Nightwish’s songs from two of their most recent studio albums, Dark Passion Play (2007) and Imaginaerum (2011). These four songs are “Scaretale” (Imaginaerum); “Turn Loose the Mermaids” (Imaginaerum); “The Poet and the Pendulum” (Dark Passion Play); and “Meadows of Heaven” (Dark Passion Play). I show how Philip Tagg’s commutative analytical model – specifically designed for the analysis of popular music – aids in the contextual reading of the selected Nightwish songs. In addition to Tagg’s model, I employ Allan Moore’s idea of the soundbox in two of the analyses, in order to uncover how in-studio sound effects influence the aesthetics of a song. Tagg’s model encompasses a mode of analysis where musemes or museme stacks and their connotations of the analysis object (AO) is compared to that of other material (interobjective comparison material or IOCM), in order to establish shared paramusical fields of connotation (PMFCs). Tagg’s model relies on a high degree of intertextuality and genre is a deciding factor in selecting IOCMs. I expand both Tagg’s model and Moore’s visual representation of the soundbox. In terms of Tagg’s model, I contextualise each analysis within a broader range of theoretical/philosophical discourses. Intertextuality plays an integral role in my analyses. It is an essential and inherent part of Tagg’s model, but I extend the role of intertextuality in my thesis as it serves an additional role as an overarching theoretical frame of reference. Furthermore, I expand the role of genre à la Umberto Eco, so that genre serves as a “road map” that informs and governs Nightwish’s construction (and communication) of meaning in their songs. In terms of Moore’s soundbox I

Published
2018

39. Take A Breath: study protocol for a randomized controlled trial of an online group intervention to reduce traumatic stress in parents of children with a life threatening illness or injury

Author

Rayner, M, Muscara, F, Dimovski, A, McCarthy, MC, Yamada, J, Anderson, VA, Burke, K, Walser, R, Nicholson, JM, Rayner, M, Muscara, F, Dimovski, A, McCarthy, MC, Yamada, J, Anderson, VA, Burke, K, Walser, R, and Nicholson, JM

Abstract

BACKGROUND: A substantial proportion of parents whose child is diagnosed with a life-threatening illness, experience high levels of distress that can lead to long-term difficulties in mental health, family functioning and child adjustment. This study evaluates the efficacy of an Acceptance Commitment Therapy-based group intervention designed to reduce distress symptoms in these parents. The program is delivered using videoconferencing to overcome factors that prevent participation in traditional face-to-face therapy. METHOD/DESIGN: The study is a randomized control trial of the Take A Breath group intervention for parents demonstrating elevated symptoms of acute stress, delivered via videoconferencing in six 90 min group sessions. Participants are the primary caregivers of children aged 0 to 18 years admitted for a life threatening illness or injury to the Oncology, Cardiology, Neurology or Intensive Care Departments of a tertiary pediatric hospital. Parents will be randomized to intervention or waitlist control 4-10 months after their child's diagnosis. Measures will be collected prior to and immediately post intervention for intervention and waitlist parents to assess program efficacy. Intervention parents will be followed up at 6 months to assess the maintenance of program effects. We predict that intervention parents will show fewer symptoms post intervention than waitlist parents (primary outcomes: traumatic stress, depression, anxiety, stress symptoms), reflecting improvements in the psychological skills addressed in the intervention (mediating factors). It is anticipated that reductions in mental health difficulties for intervention parents will be maintained up to 6 months post-intervention and will be associated with broader improvements in parents' adjustment, child adjustment and child wellbeing (secondary outcomes). DISCUSSION: This study is unique in evaluating a group intervention delivered to parents of children affected by of a diverse range life-thr

Published
2016

43. Resonance superfluidity in a quantum degenerate Fermi gas

Author

Kokkelmans, S.J.J.M.F., Holland, M., Walser, R., Chiofalo, M.L., Chu, S., Vuletic, V., Kerman, A.J., Chin, C., and Coherence and Quantum Technology

Subjects
Superconductivity, Physics, Condensed Matter::Quantum Gases, Phase transition, Condensed matter physics, Condensed Matter::Other, FOS: Physical sciences, General Physics and Astronomy, Fermi energy, Fermion, Condensed Matter - Soft Condensed Matter, Resonance (particle physics), Superfluidity, Quantum critical point, Pairing, Soft Condensed Matter (cond-mat.soft), Fermi gas, Feshbach resonance, Boson
Abstract

We consider the superfluid phase transition that arises when a Feshbach resonance pairing occurs in a dilute Fermi gas. We apply our theory to consider a specific resonance in potassium-40, and find that for achievable experimental conditions, the transition to a superfluid phase is possible at the high critical temperature of about 0.5 T_F. Observation of superfluidity in this regime would provide the opportunity to experimentally study the crossover from the superfluid phase of weakly-coupled fermions to the Bose-Einstein condensation of strongly-bound composite bosons., 4 pages, 3 figures

Published
2001

44. What does it mean to 'securitize' infectious diseases?

Author

Wolf, A, Meier-Walser, R, Davies, Sara, Wolf, A, Meier-Walser, R, and Davies, Sara

Abstract

This paper seeks to explain how the selective securitization of infectious disease arose, and to analyze the policy successes from this move. It is argued that despite some success, such as the revised International Health Regulations (IHR) in 2005, there remain serious deficiencies in the political outputs from the securitization of infectious disease.

Published
2011

45. Sensitive and selective detection of free FXIII activation peptide: a potential marker of acute thrombotic events

Author

Ortner, E, Schroeder, V, Walser, R, Zerbe, O, Kohler, H-P, Ortner, E, Schroeder, V, Walser, R, Zerbe, O, and Kohler, H-P

Abstract

Coagulation factor XIII (FXIII) stabilizes fibrin fibers and is therefore a major player in the maintenance of hemostasis. FXIII is activated by thrombin resulting in cleavage and release of the FXIII activation peptide (AP-FXIII). The objective of this study was to characterize the released AP-FXIII and determine specific features that may be used for its specific detection. We analyzed the structure of bound AP-FXIII within the FXIII A-subunit and interactions of AP-FXIII by hydrogen bonds with both FXIII A-subunit monomers. We optimized our previously developed AP-FXIII ELISA by using 2 monoclonal antibodies. We determined high binding affinities between the antibodies and free AP-FXIII and demonstrated specific binding by epitope mapping analyses with surface plasmon resonance and enzyme-linked immunosorbent assay. Because the structure of free AP-FXIII had been characterized so far by molecular modeling only, we performed structural analysis by nuclear magnetic resonance. Recombinant AP-FXIII was largely flexible both in plasma and water, differing significantly from the rigid structure in the bound state. We suggest that the recognized epitope is either occluded in the noncleaved form or possesses a structure that does not allow binding to the antibodies. On the basis of our findings, we propose AP-FXIII as a possible new marker for acute thrombotic events.

Published
2010

46. The Symmetries of Nature

Author

Sudarshan, E. C. G., Walser, R. M., Valanju, A. P., Valanju, P. M., Meshkov, Sydney, Sudarshan, E. C. G., Walser, R. M., Valanju, A. P., Valanju, P. M., and Meshkov, Sydney

Abstract

The study of the symmetries of nature has fascinated scientists for eons. The application of the formal mathematical description of symmetries during the last century has produced many breakthroughs in our understanding of the substructure of matter. In this talk, a number of these advances are discussed, and the important role that George Sudarshan played in their development is emphasized

Published
2009

47. Neoclassical Light - An Assessment of the Voyage into Hilbert Space

Author

Sundarshan, E. C. G., Walser, R. M., Valanju, A. P., Valanju, P. M., Kimble, H. Jeff, Sundarshan, E. C. G., Walser, R. M., Valanju, A. P., Valanju, P. M., and Kimble, H. Jeff

Abstract

I thank Rodger Walser and his colleagues for organizing this conference to celebrate George Sudarshan’s birthday and landmark achievements in science. It is an honor for me to be here and also a great pleasure to be back in Austin to join the chorus of the FOGS. I would like begin with a brief historical introduction and then turn to topics that we haven’t heard so much about thus far in the symposium, namely experiments in Quantum Optics. Let me remind you that blackbody radiation has had a profound impact on physics since the time of Planck. However, even in more modern times after the development of quantum mechanics and quantum electrodynamics, one really did not know how to describe the underlying field fluctuations as required for diverse interference phenomena. Emil Wolf laid critical foundations for this enterprise with his theory of classical coherence developed in collaboration with Max Born in their classic book Principles of Optics. A great challenge to the physics community was the experiment by R. H. Brown and R. Q. Twiss in 1956 [1], which led to a confusing and controversial time for photons and fields. In 1958 Leonard Mandel helped to resolve the controversy by explaining how light fluctuations are converted to photocurrents in the detection process, albeit in with a classical description of the field [2]. The confusion arose from the effort to understand, on the one hand, interference phenomena that are expressed in terms of the complex amplitude of the electromagnetic field, for which only a classical description was available. On the other hand, quantum electrodynamics had been developed based upon energy eigenstates (i.e., Fock states) with photons as quanta. It was really difficult to understand how the electric and magnetic fields behave in terms of these quantum states. For example, the expectation value of any electromagnetic field is zero in a Fock state. The confusion was compounded by the historic invention of the maser and laser and by t

Published
2009

49. The Space Atom Interferometer project: status and prospects

Author

Sorrentino, F, primary, Bongs, K, additional, Bouyer, P, additional, Cacciapuoti, L, additional, Angelis, M de, additional, Dittus, H, additional, Ertmer, W, additional, Hartwig, J, additional, Hauth, M, additional, Herrmann, S, additional, Huang, K, additional, Inguscio, M, additional, Kajari, E, additional, Könemann, T, additional, Lämmerzahl, C, additional, Landragin, A, additional, Modugno, G, additional, Santos, F Pereira dos, additional, Peters, A, additional, Prevedelli, M, additional, Rasel, E M, additional, Schleich, W P, additional, Schmidt, M, additional, Senger, A, additional, Sengstock, K, additional, Stern, G, additional, Tino, G M, additional, Valenzuela, T, additional, Walser, R, additional, and Windpassinger, P, additional

Published
2011
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50. Resonance superfluidity : renormalization of resonance scattering theory

Author

Kokkelmans, S.J.J.M.F., Milstein, J.N., Chiofalo, M.L., Walser, R., Holland, M.J., Kokkelmans, S.J.J.M.F., Milstein, J.N., Chiofalo, M.L., Walser, R., and Holland, M.J.

Abstract

We derive a theory of superfluidity for a dilute Fermi gas that is valid when scattering resonances are present. The treatment of a resonance in many-body atomic physics requires a novel mean-field approach starting from an unconventional microscopic Hamiltonian. The mean-field equations incorporate the microscopic scattering physics, and the solutions to these equations reproduce the energy-dependent scattering properties. This theory describes the high-T/sub c/ behavior of the system, and predicts a value of T/sub c/ that is a significant fraction of the Fermi temperature. It is shown that this mean-field approach does not break down for typical experimental circumstances, even at detunings close to resonance. As an example of the application of our theory, we investigate the feasibility for achieving superfluidity in an ultracold gas of fermionic /sup 6/Li.

Published
2002

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