## Nuclei and mesoscopic physics: Workshop on Nuclei and Mesoscopic Physics, WNMP 2004, East Lansing, Michigan, 23-26 October, 2004The goal of the Workshop was to open the way for exchange of ideas between physicists working in different areas of quantum physics but studying the objects of mesoscopic nature which reveal important generic features and allow for similar approaches. Among these objects are complex nuclei, atoms and molecules, nanoscale condensed matter systems, atomic clusters, atoms in traps, prototypes of quantum computers etc.The Workshop WNMP-2004 was organized with the idea of bringing together researchers actively working on the multitude of mesoscopic problems in various areas and, through cross-fertilizing discussions, make an attempt to bridge the existing gaps, find a common language and clean the way for future collaborations.The topics of common interest included general features of mesoscopic systems; experimental, theoretical and computational methods used for their studies; coherent phenomena, such as superfluidity and superconductivity; many-body quantum chaos; marginally stable and open systems; phase transitions and thermodynamic properties (an exciting subject with contradictory opinions reflected in the Proceedings). |

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### Contents

Correlated Gaussian Method for Dilute Bosonic Systems | 12 |

CoupledCluster Calculations | 28 |

MultiLevel and TwoLevel Models of the Decay out of Superdeformed Bands | 46 |

Copyright | |

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algebra amplitudes angular momentum approximation atoms average axis behavior binding energy boson calculations caloric curve canonical CCSD chaotic Chem clusters condensate corresponding coupled-cluster coupling decay deformation dependence described Dirac Dirac operator discussed distribution dynamical symmetry effective eigenstates eigenvalues ensemble entropy equation excitation energy experimental Fermi fermions FIGURE finite fluctuations Gaussian given ground ground-state Hamiltonian heat capacity interacting boson model interaction Kondo lattice Lett level density limit linear many-body many-particle matrix elements Mesoscopic Physics mesoscopic systems method microcanonical neutron Nucl nuclear Nuclei and Mesoscopic number of particles observed obtained operator order parameter panel partition function peak phase transition Phys potential properties quantum chaos quantum computation quantum dot quasiparticles qubits regime renormalized resonances rotational scale scattering length shell model single-particle space spectral spectrum spin statistical structure super-radiance temperature theory thermodynamic three-body two-body University wave function width zero