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$Edge excitations of paired fractional quantum Hall states$

REFERENCES[105] V. M. Pérez-García, H. Michinel, J. I. Cirac, M. Lewenstein, and P. Zoller,Dynamics of Bose-Einstein condensates: Variational solutions of the Gross-Pitaevskii equations, Phys. Rev. A 56, 1424 (1997). 106, 107, 108, 111, 142[106] C. Becker, S. Stellmer, P. Soltan-Panahi, S. Dorscher, M. Baumert, E.-M.Richter, J. Kronjager, K. Bongs, and K. Sengstock, Oscillations and interactionsof dark and dark-bright solitons in Bose-Einstein condensates, Nat.Phys. 4, 496 (2008). 106[107] C. Hamner, J. J. Chang, P. Engels, and M. A. Hoefer, Generation of darkbrightsoliton trains in superfluid-superfluid counterflow, Phys. Rev. Lett. 106,065302 (2011). 106[108] M. Faraday, On a peculiar class of acoustical figures; and on certain formsassumed by a group of particles upon vibrating elastic surfaces, Philos. Trans.R. Soc. London 121, 299 (1831). 106[109] M. C. Cross and P. C. Hohenberg, Pattern formation outside of equilibrium,Rev. Mod. Phys. 65, 851 (1993). 106[110] J. P. Gollub and J. S. Langer, Pattern formation in nonequilibrium physics,Rev. Mod. Phys. 71, S396 (1999). 106[111] P. Engels, C. Atherton, and M. A. Hoefer, Observation of Faraday waves in aBose-Einstein wondensate, Phys. Rev. Lett. 98, 095301 (2007). 106, 115[112] E. A. L. Henn, J. A. Seman, G. Roati, K. M. F. Magalhães, and V. S. Bagnato,Emergence of turbulence in an oscillating Bose-Einstein condensate, Phys.Rev. Lett. 103, 045301 (2009). 106[113] S. K. Adhikari, Resonance in BoseEinstein condensate oscillation from a periodicvariation in scattering length, J. Phys. B 36, 1109 (2003). 107, 114[114] F. K. Abdullaev, R. M. Galimzyanov, M. Brtka, and R. A. Kraenkel, Resonancesin a trapped 3D BoseEinstein condensate under periodically varyingatomic scattering length, J. Phys. B 37, 3535 (2004). 107, 114[115] F. K. Abdullaev and J. Garnier, Collective oscillations of one-dimensionalBose-Einstein gas in a time-varying trap potential and atomic scatteringlength, Phys. Rev. A 70, 053604 (2004). 107, 114155
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UNIVERSITY OF BELGRADEFACULTY OF PH
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Thesis advisor, Committee member:Dr
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lence for Computer Modeling of Comp
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dobijanje kondenzata odabrani su at
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Uticaj slabih interakcija na fenome
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Abstract of the doctoral dissertati
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highly accurate information on ener
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Keywords: cold quantum gases, Bose-
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CONTENTS3.4.2 Time-of-flight graphs
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NomenclatureRoman Symbolsagk BLMNn(
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Chapter 1Introduction1.1 ForewordTh
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ently explored to illustrate the ve
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Summations in the last expression c
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Figure 1.1: The hallmark of the Bos
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we discuss in some detail the exper
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In the first papers [3, 4], the TOF
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where a BG is the off-resonant scat
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system given by( ) ǫ Bog ⃗k =
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Having the efficient numerical meth
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Chapter 2Properties of quantum syst
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2. Diagonalization of Transition Am
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||2. Diagonalization of Transition
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magnetic field ⃗ B = 2M ⃗ Ω.3.
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3. Rotating ideal BECof the rotatio
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3. Rotating ideal BEC3.1 Numerical
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3. Rotating ideal BEC350300SC appro
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3. Rotating ideal BEC3.2 Finite num
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3. Rotating ideal BECN - N 03.0·10
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3. Rotating ideal BEC3.3 Global pro
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3. Rotating ideal BECever, it does
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3. Rotating ideal BECT c [nK]120110
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3. Rotating ideal BEC3.533210 3 κ
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3. Rotating ideal BECn(x, y)10·10
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3. Rotating ideal BECpancy numbers
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3. Rotating ideal BEC6·10 4 0 0.02
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Chapter 4Mean-field description of
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4. Mean-field description of an int
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Page 125 and 126: Chapter 5Nonlinear BEC dynamics by
Page 127 and 128: 5. BEC excitation by modulation of
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Page 155 and 156: Chapter 6SummarySince the first exp
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Page 163 and 164: Appendix B Time-dependent variation
Page 165 and 166: List of papers by Ivana VidanovićT
Page 167 and 168: References[1] S. N. Bose, Plancks g
Page 169 and 170: REFERENCES[21] W. Ketterle, D. S. D
Page 171 and 172: REFERENCES[45] A. Bogojević, A. Ba
Page 173 and 174: REFERENCES[70] M. R. Matthews, B. P
Page 175: REFERENCES[94] M.-O. Mewes, M. R. A
Page 179 and 180: CURRICULUM VITAE - Ivana Vidanović
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