Early universe quantum processes in BEC collapse experiments

Calzetta, E.A.; Hu, B.L.

doi:10.1007/s10773-005-8889-y

Navegar

Documento Últimos Documentos Autor FCEN - Año Autor FCEN - Revista Año - Revista Revista - Año SubjectPcEn Colores Type

Colección

Artículo

Calzetta, E.A.; Hu, B.L. "Early universe quantum processes in BEC collapse experiments" (2005) International Journal of Theoretical Physics. 44(10):1691-1704

https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00207748_v44_n10_p1691_Calzetta

La versión final de este artículo es de uso interno. El editor solo permite incluir en el repositorio el artículo en su versión post-print. Por favor, si usted la posee enviela a

Consulte el artículo en la página del editor

Consulte la política de Acceso Abierto del editor

Abstract:

We show that in the collapse of a Bose-Einstein condensate (BEC) 4certain processes involved and mechanisms at work share a common origin with corresponding quantum field processes in the early universe such as particle creation, structure formation, and spinodal instability. Phenomena associated with the controlled BEC collapse observed in the experiment of Donley et al. (Donley, E., et al. (2001), Nature 412, 295; Claussen, N. (2003), PhD Thesis, University of Colorado; Claussen, N., et al. (2003), Physical Review A 67, 060701(R))(they call it "Bose-Nova," see also Chin, J., Vogels, J., and Ketterle, W. (2003), Physical Review Letters 90, 160405) such as the appearance of bursts and jets can be explained as a consequence of the squeezing and amplification of quantum fluctuations above the condensate by the dynamics of the condensate. Using the physical insight gained in depicting these cosmological processes, our analysis of the changing amplitude and particle contents of quantum excitations in these BEC dynamics provides excellent quantitative fits with the experimental data on the scaling behavior of the collapse time and the amount of particles emitted in the jets. Because of the coherence properties of BEC and the high degree of control and measurement precision in atomic and optical systems, we see great potential in the design of tabletop experiments for testing out general ideas and specific (quantum field) processes in the early universe, thus opening up the possibility for implementing "laboratory cosmology.". © 2005 Springer Science+Business Media, Inc.

Registro:

Documento:	Artículo
Título:	Early universe quantum processes in BEC collapse experiments
Autor:	Calzetta, E.A.; Hu, B.L.
Filiación:	Departamento de Fisica, FCEyN Universidad de Buenos Aires, Ciudad Universitaria, 1428 Buenos Aires, Argentina Department of Physics, University of Maryland, College Park, MD, United States Department of Physics, University of Maryland, College Park, MD 20742, United States
Palabras clave:	Bose-Einstein condensates; Cosmology; Field theory
Año:	2005
Volumen:	44
Número:	10
Página de inicio:	1691
Página de fin:	1704
DOI:	http://dx.doi.org/10.1007/s10773-005-8889-y
Título revista:	International Journal of Theoretical Physics
Título revista abreviado:	Int. J. Theor. Phys.
ISSN:	00207748
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00207748_v44_n10_p1691_Calzetta

Referencias:

Adhikari, S.K., Mean-field model of jet formation in a collapsing Bose-Einstein condensate (2004) Journal of Physics B: Atomic, Molecular and Optical Physics, 37, p. 1185
Andersen, J., Theory of the weakly interacting Bose gas (2004) Review of Modern Physics, 76, p. 599
Bao, W., Jaksch, D., Markovich, P., Three-dimensional simulation of jet formation in collapsing condensates (2004) Journal of Physics B: Atomic, Molecular and Optical Physics, 37, p. 329
Barcelo, C., Liberati, S., Visser, M., (2001) Classical Quantum Gravity, 18, p. 1137
Barcelo, C., Liberati, S., Visser, M., Probing semiclassical analog gravity in Bose-Einstein condensates with widely tunable interactions (2003) Physical Review A, 68, p. 053613
Bardeen, J., (1980) Journal of Physical Review D, 22, p. 1882
Berman, G., Smerzi, A., Bishop, A., Quantum instability of a Bose-Einstein condensate with attractive interaction (2002) Physics Review Letters, 88, p. 120402
Birrell, N.D., Davies, P.C.W., (1982) Quantum Fields in Curved Spaces, , Cambridge University Press, Cambridge, England
Calzetta, E., Spinodal decomposition in quantum field theory (1989) Annals of Physics (New York), 190, p. 32
Calzetta, E., Hu, B.L., Bose-Einstein condensate and dynamical squeezing of vacuum fluctuations (2003) Physical Review A, 68, p. 043625. , [cond-mat/0207289]
Calzetta, E., Hu, B.L., (2002) Base-novae as Squeezing of the Vacuum by Condensate Dynamics, , [cond-mat/0208569]
Castin, Y., Dum, R., Low-temperature Bose-Einstein condensates in time dependent traps: Beyond the U(1) symmetry-breaking approach (1998) Physical Review A, 57, p. 3008
Castin, Y., Dum, R., Instability and depletion of an excited Bose-Einstein condensate in a trap (1997) Physical Review Letters, 79, p. 3553
Charters, T., Nunes, A., and Mimoso, J. (2005). hep-ph/0502053; Chin, J., Vogels, J., Ketterle, W., Amplification of local instabilities ina Bose-einstein condensate with attractive interaction (2003) Physics Review Letters, 90, p. 160405
Chung, D., (2000) Physical Review D, 62, p. 043508
Claussen, N., (2003), PhD Thesis, University of Colorado; Claussen, N., Donley, E.A., Thompson, S.T., Wieman, C.E., Microscopic dynamics in a strongly interacting bose-einstein condensate (2002) Physical Review Letters, 89, p. 10401
Claussen, N., Kokkelmans, S.J.J., Thompson, S.T., Donley, E.A., Hodby, E., Wieman, C.E., Very-high-precision bound-state spectroscopy near a 85Rb Feschbach resonance (2003) Physical Review A, 67, pp. 060701R
Cooper, F., Kluger, Y., Mottola, E., Paz, J.P., Nonequilibrium quantum dynamics of disoriented chiral condensates (1995) Physical Review D, 51, p. 2377
Cornish, S., Stable 85Rb bose-einstein condensate with widely tunable interactions (2000) Physical Review Letters, 85, p. 1795
Donley, E., Atom-molecule coherence in a Bose-einstein condensate (2002) Nature, 417, p. 529
Donley, E., Claussen, N., Cornish, S., Roberts, J., Cornell, E., Wieman, C., Dynamics of collapsing and exploding Bose-einstein condensates (2001) Nature, 412, p. 295
Duine, R., Stoof, H., Dynamics of a bose-einstein condensate near a feshbach resonance (2003) Physical Review A, 68, p. 013602
Fedichev, P., Fischer, U., Cosmological particle production in oscillating ultracold Bose gases: The role of dimensionality (2004) Physical Review A, 69, p. 033602
Fischer, U.R., Schützhold, R., Quantum simulation of cosmic inflation in two- component Bose-Einstein condensates (2004) Physical Review A, 70, p. 063615
Fujisaki, H., (1996) Physical Review D, 53, p. 6805
Gammal, A., Frederico, T., Tomio, L., Critical number of atoms for attractive Bose-Einstein condensates with cylindrically symmetric traps (2001) Physical Review A, 64, p. 55602
Garay, L., Anglin, J., Cirac, J., Zoller, P., (2000) Physical Review Letters, 85, pp. 4643-4647
Gardiner, C., Particle-number-conserving Bogoliubov method which demonstrates the validity of the time-dependent Gross-Pitaievskii equation for a highly condensed Bose gas (1997) Physical Review A, 56, p. 1414
Gardiner, S., Jaksch, D., Dum, R., Cirac, J., Zoller, P., Nonlinear matter wave dynamics with a chaotic potential (2000) Physical Review A, 62, p. 23612
Girardeau, M., Arnowitt, R., Theory of many-boson systems: Pair theory (1959) Physical Review A, 113, p. 755
Griffin, A., Conserving and gapless approximations for an inhomogeneous Bose gas at finite temperatures (1996) Physical Review B, 53, p. 9341
Grischuk, L., Sidorov, Y.V., Squeezed quantum states of relic gravitons and primordial density fluctuations (1990) Physical Review D, 42, p. 3413
Guth, A.H., (1981) Physical Review D, 23, p. 347
Hawking, S.W., (1974) Nature, 248, p. 30
Hawking, S.W., (1975) Communications in Mathematical Physics, 43, p. 199
Hohenberg, P., Martin, P., Martin, Microscopic theory of superfluid helium (1965) Annals of Physics, 34, p. 291
Hu, B.L., Cosmology as 'condensed matter' physics (1988) Proceedings of Third Asia Pacific Physics Conference, 1, p. 301. , Y. W. Chan et al., eds., World Scientific, Singapore. [gr-qc/9511076]
Hu, B.L., Kang, G., Matacz, A., (1994) International Journal of Modern Physics A, 9, p. 991
Idziaszek, Z. (2004). cond-mat/0406052; Ivanov, Y., Riek, F., Knoll, J., (2005) Gapless Hartree-fock Resummation Scheme for the O(N) Model, , hep-ph/0502146
Jacobson, T., (1991) Physical Review D, 44, p. 1731
Jacobson, T., (1994) Physical Review D, 53, p. 7082
Jacobson, T., Koike, T., Black hole and baby universe in a thin film of 3He-A, Chapter for book (2002) Artificial Black Holes, , M. Novello, M. Visser, and G. Volovik, eds., World Scientific, Singapore (cond-mat/0205174)
Kagan, Yu., Maksimov, L., Damping of a trapped Bose - Einstein condensate oscillations at zero temperature (2001) Physical Review A, 64, p. 53610
Kofman, L., Linde, A., Starobinsky, A., (1994) Physical Review Letters, 73, p. 3195
Kofman, L., Linde, A., Starobinsky, A., (1997) Physical Review D, 56, p. 3258. , and referencs therein
Kokkelmans, S., Holland, M., Ramsey fringes in a bose-einstein condensate between atoms and molecules (2002) Physical Review Letters, 89, p. 180401
Métens, S., Dewel, G., Borckmans, P., Nonadiabatic effects in the dynamics of collapsing Bose-Einstein condensates (2003) Physical Review A, 68, p. 045601
Mackie, M., Suominen, K., Javainen, J., Mean-field theory of feshbach-resonant interactions in 85Rb condensates (2002) Physical Review Letters, 89, p. 180403
Mackie, M., Suominen, K., Javainen, J., Rapid adiabatic passage from an atomic to a molecular condensate (physics/0210131) (2003) Interactions in Ultracold Gases: From Atoms to Molecules, , M. Weidemueller and C. Zimmermann, eds., Wiley-VCH, Weinheim (cond-mat/0209083)
Morgan, S., (2003) The Response of Bose-Einstein Condensates to External Perturbations at Finite Temperature, , cond-mat/0307246
Mukhanov, V., Feldman, H., Brandenberger, R., Theory of cosmological perturbations (1992) Physics Report, 215, p. 203. , and references therein
Parker, L., Quantized fields and particle creation in expanding Universes (1969) Physical Review, 183, p. 1057
Peebles, J.P.E., (1993) Principles of Physical Cosmology, , Princeton University Press, Princeton, NJ
Penrose, O., Onsager, L., (1956) Physical Review, 104, p. 576
Pethick, C., Smith, H., (2002) Bose-einstein Condensation in Dilute Gases, , Cambridge University Press, Cambridge, England
Ramsey, S.A., Hu, B.L., (1997) Physical Review D, 56, p. 678
Rey, A.M., Hu, B.L., Calzetta, E., Roura, A., Clark, C., Nonequilibrium dynamics of optical-lattice-loaded Bpse-Einstein- condensate atoms: Beyond the Hartree-Fock-Bogoliubov approximation (2004) Physical Review A, 69, p. 033610
Roberts, J., Resonant magnetic field control of elastic scattering in cold 85Rb (1998) Physical Review Letter, 81, p. 5109
Rogel-Salazar, J., Choi, S., New, G.H.C., Burnett, K., Squeezing and entanglement in quasiparticle excitations of trapped Bose-Einstein condensates (2002) Physical Review A, 65, p. 023601. , [cond-mat/0110076]
Saito, H., Ueda, M., A consistent picture of a collapsing Bose - Einstein condensate (2003) Journal of Physics Society, Japan, 72 (SUPPL. C), pp. 127-133. , [cond-mat/0305242]
Santos, L., Shlyapnikov, G., Collapse dynamics of trapped Bose-Einstein condensates (2002) Phys. Rev. A, 66, pp. 011602R
Savage, C., Robins, N., Hope, J., Hope, Bose-Einstein condensate collapse: A comparison between theory and experiment (2003) Physical Review A, 67, p. 014304. , [cond-mat/0207308]
Schützhold, R., Unruh, W.G., (2002) Physical Review D, 66, p. 044019
Schwinger, J., On gauge invariance and vacuum polarization (1951) Physical Review, 82, p. 664
Shi, H., Griffin, A., Finite-temperature excitations in a dilute Bose- Condensed gas (1998) Physics Report, 304, p. 1
Shtanov, Y., Traschen, J., Brandenberger, R., (1995) Physical Review D, 51, p. 5438
Smolin, L., Cosmology as a problem in critical phenomena (1995) Complex Systems and Binary Networks, , L. Lopez-Pena, et al. eds., Springer, Berlin [gr-qc/9505022]
Trippenbach, M., Band, Y., Julienne, P., (2000) Physical Review A, 62, p. 23608
Unruh, W.G., (1981) Physical Review Letters, 46, p. 1351
Unruh, W.G., (1995) Physical Review D, 51, p. 2827
Volovik, G., (2003) Universe in A Helium Droplet, , Oxford University Press, Oxford
Wüster, S., Hope, J., Savage, C., (2004) Collapsing Bose-einstein Condensates beyond the Gross-pitaevskii Approximation, , [cond-mat/0412041]
Yurovsky, V.A., Quantum effects on dynamics of instabilities in Bose-Einstein condensates (2002) Physical Review A, 65, p. 33605
Yurovsky, V.A., Ben-Reuven, A., Formation of a molecular Bose-Einstein condensate and an entangled atomic gas by Feshbach resonance (2003) Physical Review A, 67, p. 043611. , [cond-mat/0205267]
Zel'dovich, Ya., (1970) PismaZh. Eksp. Teor. Fiz, 12, p. 443
(1971) Soviet Physics-JETP Letters, 12, p. 307
Zurek, W., (1996) Physics Report, 276, p. 178

Citas:

---------- APA ----------

Calzetta, E.A. & Hu, B.L. (2005) . Early universe quantum processes in BEC collapse experiments. International Journal of Theoretical Physics, 44(10), 1691-1704.
http://dx.doi.org/10.1007/s10773-005-8889-y

---------- CHICAGO ----------

Calzetta, E.A., Hu, B.L. "Early universe quantum processes in BEC collapse experiments" . International Journal of Theoretical Physics 44, no. 10 (2005) : 1691-1704.
http://dx.doi.org/10.1007/s10773-005-8889-y

---------- MLA ----------

Calzetta, E.A., Hu, B.L. "Early universe quantum processes in BEC collapse experiments" . International Journal of Theoretical Physics, vol. 44, no. 10, 2005, pp. 1691-1704.
http://dx.doi.org/10.1007/s10773-005-8889-y

---------- VANCOUVER ----------

Calzetta, E.A., Hu, B.L. Early universe quantum processes in BEC collapse experiments. Int. J. Theor. Phys. 2005;44(10):1691-1704.
http://dx.doi.org/10.1007/s10773-005-8889-y