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| 书名: | Key Topics In Nuclear Structure - Proceedings Of The 8th International Spring Seminar On Nuclear Physics : Proceedings of the 8th International Spring Seminar on Nuclear Physics Paestum, Italy 23 - 27 May 2004 | |
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| 作者: | Covello, Aldo | |
| 出版时间: | 2005-03-21 | |
| ISBN: | 9789812560933(P-ISBN) ,9789812702265(O-ISBN) | |
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书目详情:
CONTENTSForewordProgramSection I PRESENT AND FUTURE OF NUCLEAR STRUCTURE WITH RARE ISOTOPE BEAMSRadioactive Beams at TRIUMF A. C. Shotter1. Introduction2. The ISAC Facility3. The Experimental Program at ISAC4. Look to the FutureReferencesExperiments with Radioactive Ion Beams at ATLAS - Present Status and Future Plans K. E. Rehm1. Introduction2. Experimental Details3. Experimental Results3.1. The 2+ state in 8Be3.2. The Charge Radius of 6He4. R&D; at ANL towards a future RIA Facility4.1. Multiple Charge State Accelemtion4.2. Liquid Lithium Target Technology5. AcknowledgmentsReferencesFirst Experiments with REX-ISOLDE and MINIBALL D. Schwalm1. REX-ISOLDE1.1. The Charge State Breeder1.2. The REX-LINAC2. The MINIBALL Array3. First Experiments4. OutlookAcknowledgementsReferencesProspects with Rare Isotope Beams at the International Facility for Antiprotons and Ion Research FAIR) T. Aumann1. Overview2. The radioactive beam facility3. Experiments with slowed-down and stopped beams4. Scattering experiments with high-energy rare-ion beams5. Experiments with stored and cooled beamsReferencesThe SPIRAL 2 Project at GANIL D. Goutte1- Physics objectives and specificationsDriver and primary beamsProduction hallExperimental areaUse of neutrons for other applications2- Reference project3 - Accelerator driverInjectorSuperconducting linucHigh energy beam transport4 - RIB production stationConverterTargetsIon sourcesSecondary beam transport lines6 - Infrastructure and conventional facilities7 - Project schedule and costThe Evolution.of Structure in Exotic Nuclei R. F. Casten1. Introduction2. Shape/Phase Transitions in Finite Nuclei and Their Locus3. Mapping the Symmetry Triangle4. Regularity vs. Chaos in Nuclear SpectraAcknowledgmentsReferencesFirst Measurement of a Magnetic Moment of a Short-Lived State with an Accelerated Radioactive Beam: 76Kr N. Benczer-Koller, G. Kumbartzki, K. Hales, J. R. Cooper, L. Bernstein, L. Ahle, A. Schiller, T. J. Mertzimekis, M. J. Taylor, M. A. McMahan, L. Phair, J. Powell, C. Silver, D. Wutte, P. Maier-Komor, and K.-H. Speidel1. Introduction1.l. Production of 76 Kr1.2. Experimental setup1.3. The magnetic moment measurement2. Results3. Discussion4. FutureReferencesNew Interactions, Exotic Phenomena and Spin Symmetry for Anti-Nucleon Spectrum in Relativistic Approach J. Meng, S. F. Ban, L. S. Geng, J. Y. Guo, J. La, W. H. Long, H. F. Lu, J. Peng, G. Shen, S. Q. Zhang, S. S. Zhang, W. Zhang, and S. G. Zhou1. Introduction2. New effective interactions in RMF theory3. Halos and giant halos4. Spin symmetry in anti-nucleon spectra5. Magic numbers in superheavy nuclei6. SummaryAcknowledgmentsReferencesNuclear Structure beyond the Proton Drip-Line L. S. Ferreira1. Introduction2. Decay widths for deformed proton emitters: Adiabatic approach3. The non-adiabatic quasi-particle approach: contributions from Coriolis mixing and pairing residual interaction4. ConclusionsAcknowledgementsReferencesComplex Shell Model with Antibound States R. Id Betan, R. J. Liotta, N. Sandulescu, and T. Vertse1. Introduction2. Formalism3. Applications4. ConclusionsReferencesSection II NUCLEAR FORCES AND NUCLEAR STRUCTUREStudies of Phase-Shift Equivalent Low-Momentum Nucleon-Nucleon Potentials T. T. S. Kuo and J. D. Holt1. Introduction2. Counter terms3. Hermitian low-momentum interactions4. Summary and discussionAcknowledgmentsReferencesDependence of Nuclear Binding Energies on the Cutoff Momentum of Low-Momentum Nucleon-Nucleon Interaction S. Fujii, H. Kamada, R. Okamoto, and K. Suzuki1. Introduction2. Results and discussion2.1. 3H and 4 H e2.2. 1602.3. 15O and 1703. ConclusionsAcknowledgmentsReferencesThe Ab Initio Large-Basis No-Core Shell Model B. R. Barrett, P. Navrcitil, A. Nogga, W. E. Ormand, I. Stetcu, J. P. Vary, and H. Zhan1. INTRODUCTION2. NO-CORE SHELL-MODEL APPROACH3. RESULTS4. CONCLUSIONSAcknowledgmentsReferencesA Monopole Primer A. P. Zuker1. Getting acquainted with Hm1.1. The isospin puzzle2. General form of the monopole Hamiltonian 31,2.1. Forms of Hdm3. Inventing Hdm3.1. Predicted monopole shell effects4. Problems4.1. Comparing Hdm with data4.2. Comparing Hdm with realistic forcesReferencesCoupled Cluster Approaches to Nuclei, Ground States and Excited States D. J. Dean, M. Hjorth-Jensen, K. Kowalski, T. Papenbrock, M. Wloch, and P. Piecuch1. Introduction2. Coupled Cluster approach to Nuclei3. Perspectives and Future PlansAcknowledgmentsReferencesMicroscopic Correlations in Nuclear Structure Calculations M. Tomaselli, T. Kuhl, D. Ursescu, and L. C. Liu1. Introduction2. The Boson Dynamic Correlation Model3. Results3.1. The calculated spectrum of 18 O3.2. Spectrum and charge radius of 6LiReferencesParticle-Number-Projected HFB Method with Skyrme Forces and Delta Pairing M. V. Stoitsov, J. Dobaczewski, W. Nazarewicz, P.- G. Reinhard, and J. Terasaki1. Introduction2. Particle-Number-Projected Skyrme-HFB Method2.1. Slcyrme-HFB method2.2. Particle-nurnber-projection2.3. Delta pairing forces2.4. Sample PNP HFB results3. Shift Invariance Within DFT3.1. The shift invariance under the “mixed density recipe3.2. Other extensions of DFT3.3. The innocent singularity in DFT applicationsAcknowledgmentsReferencesRelativistic Pseudospin Symmetry as a Supersymmetric Pattern in Nuclei A. Leviatan1. Introduction2. Supersymmetric Quantum Mechanics3. Dirac Hamiltonian with Central Fields4. Relativistic Pseudospin Symmetry in Nuclei5. Relativistic Pseudospin Symmetry and SUSY6. SummaryAcknowledgmentsReferencesPseudospin Symmetry in Spherical and Deformed Nuclei J. N. Ginocchio1. Introduction2. The Dirac Hamiltonian and Pseudospin Symmetry3. Pseudospin Symmetry Generators4. Pseudospin Symmetry for Axially Deformed and Spherical Nuclei5. Summary6. FutureSection III THE ROLE OF SHELL MODEL IN THE UNDERSTANDING OF NUCLEAR STRUCTURENuclear Structure Calculations with Modern Nucleon-Nucleon Potentials A . Covello, L. Coraggio, A . Gargano, and N. Itaco1. Introduction2. Outline of theoretical framework3. Selected results of realistic shell-model calculations4. Phase-shift equivalent nucleon-nucleon potentials and nuclear structure calculations5. Concluding remarksAcknowledgmentsReferencesTesting Shell Model on Exotic Nuclei at 135Sb H. Mach, A . Korgul, B. A . Brown, A . Covello, A . Gargano, B. Fogelberg, R. Schuber, W. Kurcewicz, E. Werner-Malento, R. Orlandi, and M. Sawicka1. Introduction2. The Measurement and DiscussionReferencesNeutron-Rich In and Cd Isotopes in the 132Sn Region J . Genevey, J . A. Pinston, A . Scherillo, A . Covello, H. Faust, A. Gargano, R. Orlandi, G. S. Simpson, and I. S. Tsekhanovich1. Introduction2. Experimental procedure3. Level scheme of the odd-In isotopes4. Shell-model calculations in In isotopes4.1. Odd In nuclei4.2. Even In nuclei5. Even Cd isotopes in the framework of the shell modelReferencesPair Breaking in a Shears Band of 104In O. Yordanov, K. P. Lieb, E. Galindo, M. Hausmann, A . Jungclaus, G. A . Muller, F. Brandolini, A . Algora, A . Gadea, D. Napoli, and T. Martinez1. Introduction2. Experiment3. DiscussionAcknowledgmentsReferencesStructure of the 100Sn Region Based on a Core Excited E4 Isomer in 98Cd M. Gorska, A . Blazhev, H. Grawe, J. Doring, C. Plettner, J . Nyberg, M. Palacz, E. Caurier, D. Curien, 0. Dorvaux, F. Nowacki, A. Gadea, G. de Angelis, C. Fahlander, and D. Rudo1. Introduction2. Experimental Methods3. Core Excited Isomeric States and their Structure4. Predicted Seniority Isomers5. ConclusionAcknowledgmentsReferencesNew Yrast States in Nuclei from the 48Ca Region Studied with Deep-Inelastic Heavy Ion Reactions R. Broda, B. Fornal, W. Krolas, T. Pawtat, J . Wrzesinski, R. V. F. Janssens, M. P. Carpenter, S. J. Freeman, N. Hammond, T. Lauritsen, C. J. Lister, F. Moore, D. Seweryniak, P. J. Daly, Z. W. Grabowski, B. A . Brown, and M. Honma1. Introduction2. Experiments and data analysis3. Yrast excitations in the 48Ca magic nucleus4. The N=30 isotones - 50Ca and 51ScAcknowledgmentsReferencesYrast Structure of Neutron-Rich N=31-32 Titanium Nuclei - Subshell Closure a t N=32 B. Fomzal, R. Broda, W. Krdlas, T. Pawlat, J. Wrzesinski, R. V. F. Janssens, M. P. Carpenter, F. G. Kondev, T. Lauritsen, D. Seweryniak, I. Wiedenhover, M. Honma, B. A . Brown, P. F. Mantica, P. J. Daly, Z. W. Grabowski, S. Lunardi, N. Marginean, C. Ur, T. Mizusaki, and T. Otsuka1. Introduction2. Experimental procedure and results3. Discussion4. SummaryAcknowledgmentsReferencesMagnetic Moment Measurements of Neutron-Rich g g / 2 Isomeric States J. M. Daugas, G. Belier, M. Girod, H. Goutte, V. Meot, 0. Roig, I. Matea, G. Georgiev, M. Lewitowicz, F. de Oliveira Safitos, M. Hass, L. T. Baby, G. Goldring, G. Neyens, D. Borremans, P. Himpe, R. Astabatyan, S. Lukyanov, Yu. E. Penionzhkevich, D. L. Balabanski, and M. Sawicka1. Introduction2. Experimental detail2.1. The TDPAD-method2.2. Secondary isomeric beam production2.3. Experimental set-up3. Results3.1. Measurement of the 54mFe3.2. g-factor of the 61rnFe3.3. The 59mCr case4. SummaryAcknowledgmentsReferencesM. Multinucleon Transfer Reactions Studied with Large Solid Angle Spectrometers L. Corradi1. Introduction2. Inclusive measurements : main findings3. Inclusive measurements : the 40Ca+208Pb system4. Measurements with the PRISMA set-upAcknowledgmentsReferencesStudy of 110Sn via 112Snp,t) Reaction P. Guazzoni, L. Zetta, A . Covello, A . Gargano, G. Graw, R. Hertenberger, H.-F. Wirth, B. Bayman, and M. Jaskola1. Introduction2. Experimental Procedure and Results3. DWBA Analysis3.1. Cluster D WBA Calculations3.2. Microscopic D WBA calculations4. Shell Model Calculations and Results5. SummaryReferencesExpressions for the Number of Pairs of a Given Angular Momentum in the Single j Shell Model: Ti Isotopes L. Zamick, A . Escuderos, S. J. Lee, A . Mekjian, E. Moya de Guerra, A . A . Raduta, and P. Sarriguren1. The single j model for 44Ti, 46Ti, and 48Ti2. The number of JA = 0 TA = 1 np pairs3. The special case of 44Ti4. The number of JA pairs in 44TiAcknowledgmentsReferencesA Sampling Algorithm for Large Scale Shell Model Calculations F. Andreozzi, N. Lo Iudice, and A . Porrino1. Introduction2. The algorithm3. Importance sampling4. Applications to typical nuclei4.1. Eigenvalues4.2. Eigenvectors and E2 transitions5. Concluding remarksAcknowledgementsReferencesShifted-Contour Monte Carlo Method for Nuclear Structure G. Stoitcheva and D. J. Dean1. Introduction2. Shifted-Contour Monte Carlo MethodAcknowledgmentsReferencesSection IV COLLECTIVE ASPECTS OF NUCLEAR STRUCTUREQuantum Phase Transitions in Nuclei F. Iachello1. Quantum Phase Transitions2. Quantum Phase Transitions in nuclei2.1. Bosonization2.2. Phase diagram of nuclei one fluid)2.3. Behavior of the order parameter around the critical point2.3.1. The second order U5) - SO6) transition2.3.2. The first order U5) - SU3) transition2.4. Finite N eflects2.5. How to detect QPT in nuclei3. Spectral signatures of critical points4. Developments in the study of QPT in nuclei4.1. =axial shapes4.2. Proton-Neutron a ystems Two-fluid)5. Conclusions6. AknowledgementsReferencesDevelopments of Algebraic Collective Models at Second-Order Phase Transitions D. J. Rowe1. Introduction2. Bases for the hydrodynamic collective model3. A more efficient basis for deformed nuclei4. The U5) to O5) phase transition in the IBM5. Concluding remarksReferencesVariational Procedure Leading from Davidson Potentials to the E5) and X5) Critical Point Symmetries D. Bonatsos, D. Lenis, D. Petrellis, N . Minkov, P. P. Raychev, and P. A. Terziev1. Introduction2. Davidson potentials in the E5) framework3. Davidson potentials in the X5) framework4. DiscussionReferencesTransition Probabilities: A Key to Prove the X5) Symmetry D. Tonev, G. de Angelis, A . Gadea, D. R . Napoli, M. Axiotis, N. Marginean, T. Martinez, A . Dewald, T. Klug, J. Jolie, A. Fitzler, 0. Moller, B. Saha, P. Pejovic, S. Heinze, P. von Brentano, P. Petkov, R. F. Casten, D. Bazzacco, E. Farnea, S. Lenzi, S. Lunardi, and R. Menegazzo1. Introduction2. Experimental details3. Discussion4. ConclusionsAcknowledgmentsReferencesZ5): Critical Point Symmetry for the Prolate to Oblate Shape Phase Transition D. Bonatsos, D. Lenis, D. Petrellis, and P. A. Terziev1. Introduction2. The part of the spectrum3. The 7-part of the spectrum4. BE2) transition rates5. Numerical results6. Comparison to experiment7. DiscussionReferencesSupersymmetry and the Spectrum of 196Au: A Case Study G. Graw, R. Hertenberger, H.-F. Wirth, J. Jolie, J. Barea, R. Bijker, and A. Frank1. Introduction1.1. Even-even nuclei and IBA1.2. Odd-even nuclei and supersymmetry1.3. Odd-odd Nuclei and the extended supersymmetry2. Transfer reaction studies3. Spectroscopic factors and conclusionsAcknowledgmentsReferencesBosonization and IBM F. Palumbo1. Introduction2. Coherent states of composites3. Composites path integral4. The action in a single j-shell5. The Hamiltonian6. SummaryReferencesStudy of Decay in the As-Ge Isotopes in the Interacting Boson-Fermion Model N. Yoshida, L. Zufi, and S. Brant1. Introduction2. Calculations and results2.1. Energy levels2.2. Electromagnetic properties2.3. decay3. Discussion4. ConclusionsAcknowledgmentReferencesEnergy Distribution of Collective States within the Framework of Symplectic Symmetries A. I. Georgieva, V. P. Garistov, H. Ganev, and J. P. Draayer1. Introduction2. Group theoretical background for the IVBM2.1. Reduction through the noncompact Sp4,R)3. Distribution of low-lying collective states3.1. Analysis of the results4. ConclusionReferencesRecent Results from Spectroscopic Studies of Exotic Heavy Nuclei at JYFL R. Julin1. Instrumentation2. Probing the three shapes of lasPb3. Spectroscopic studies of very heavy elementsReferencesDipole Strength Distributions in 124, 126, 128, 130, 132, 134, 136 Xe: A Systematic Study in the Mass Region of a Nuclear Shape Transition U. Kneissl1. Motivation2. Experiments3. Results4. Discussion4.1. E l two-phonon excitations4.2. M l excitations to 1+ mixed-symmetry states4.3. Hints for the E5) Phase Transition ?AcknowledgmentsReferencesRole of Thermal Pairing in Reducing the Giant Dipole Resonance Width at Low Temperature N. Dinh Dang and A . ArimaReferencesCollectivity in Light Nuclei and the GDR A . Maj, J. Styczen, M. Kmiecik, P. Bednarczyk, M. Brekiesz, J. GrGbosz, M. Lach, W. Meczynski, M. Zigblinski, K. Zuber, A. Bracco, F. Camera, G. Benzoni, S. Leoni, B. Million, and O. Wieland1. Introduction2. Low-T regime: superdeformation in light nuclei3. High-T regime: Jacobi shape transitions and Coriolis effects in the GDR in light nuclei4. Link between high-T and low-T regimes: GDR feeding of the SD band in 42Ca5. SummaryAcknowledgmentsReferencesSoft Dipole Excitations near Threshold M. Gai1. Molecular Dipole Excitation2. The AGB Molecular Sum Rule3. ConclusionsReferencesUnified Semiclassical Approach to Isoscalar Collective Modes in Heavy Nuclei V. I. Abrosimov, A . Dellafiore, and F. Matera1. Introduction2. Reminder of formalism3. Fixed- vs. moving-surface strength distributions4. ConclusionsReferencesMicroscopic Description of Multiple Giant Resonances in Heavy Ion Collisions E. G. Lanza1. Introduction2. Beyond the standard model3. Three-phonon states: Calculations and results4. Double giant resonances cross section5. SummaryAcknowledgmentsReferencesShape Evolution and Triaxiality in Neutron Rich Y, Nb, Tc, Rh and Ag Y. X . Luo, J. O. Rasmussen, J. H. Hamilton, A . V. Ramayya, J. K. Hwang, S. J. Zhu, P. M. Gore, E. F. Jones, S. C. Wu, J. Gilat, I. Y. Lee, P. Fallon, T. N. Ginter, G. Ter-Akopian, A . V. Daniel, M. A . Stoyer, R. Donangelo, and A . Gelberg1. Introduction2. 99, 101 Y and 101, 105 Nb3. 105, 107, 109 Tc, 111, 113, Rh and 115, 117 Ag4. AcknowledgementsReferencesNuclear Band Structures in 93, 95 Sr and Half-Life Measurements J. K. Hwang, A . V. Ramayya, J. H. Hamilton, J. O. Rasmussen, Y. X . Luo, P. M. Gore, E. F. Jones, K. La, D. Fong, I. Y. Lee, P. Fallon, A. Covello, L. Coraggio, A . Gargano, N. Itaco, and S. J. Zhu1. Introduction2. Experimental procedures3. High spin states in 93, 95Sr4. Half-lives of several states in neutron rich nuclei from SF of 252Cf5. ConclusionsReferencesShifted Identical Bands from Pt to Pb P. M. Gore, E. F. Jones, 3. H, Hamilton, and A . V. Ramayya1. Introduction2. Results and Analysis3. SummaryReferencesUnexpected Decrease in Moment of Inertia between N=98-100 in 162, 164 Gd E. F. Jones, J. H. Hamilton, P. M. Gore, A. V. Ramayya, J. K. Hwang, A. P. de Lima, S. J. Zhu, Y. X . Luo, C. J. Beyer, J. Kormicki, X . Q. Zhang, W. C. Ma, I. Y. Lee, J. O. Rasmussen, S. C. Wu, T . N. Ginter, P. Fallon, M. Stoyer, J. D. Cole, A. V. Daniel, G. M. Ter-Akopian, and R. Donangelo1. Introduction2. Results and Analysis3. SummaryReferencesExactly Solvable Pairing Models J. P. Draayer, V. G. Gueorguiev, K. D. Sviratcheva, C. Bahri, Feng Pan and A . I. Georgieva1. Introduction2. Mean-field plus Extended Pairing Model2.1. Algebraic Underpinnings of the Theory2.2. Application to the 154-181 Yb Isotopes3. Algebraic ap4) Pairing Model3.1. Energy Spectra of Isobaric Analog O+ States3.2. N = Z Irregularities, Staggering and the Pairing Gap4. ConclusionAcknowledgmentsReferencesMany-Body Effects and Pairing Correlations in Finite Nuclei E. Vigezzi, P. F. Bortignon, G. Cold, G. Gori, F. Ramponi, F. Barranco, and R. A. Broglia1. Introduction2. Particle-vibration coupling and the induced interaction3. Solution of the Dyson equation4. ConclusionsReferencesMicroscopic Study of Low-Lying O+ States in Deformed Nuclei N. Lo Iudice, A . V. Sushkov, and N . Yu. Shirikova1. Introduction2. Algebraic and shell model model predictions2.1. IBM predictions2.2. The PSM predictions3. QPM study3.1. Numerical results4. ConclusionAcknowledgmentsReferencesMicroscopic Study of Low-Lying States in 92Zr Ch. Stoyanov and N. Lo Iudice1. Introduction2. Calculation and results2.1. RPA analysis2.2. QPM results3. Concluding remarksAcknowledgementsReferencesFinite Rank Approximation for Nuclear Structure Calculations with Skyrme Interactions A. P. Seveyukhin, V. V. Voronov, and N . Van Giai1. Introduction2. Method of calculations3. Details and results of calculations4. Conclusions5. AcknowledgmentsReferencesGamma Transitions between Configurations “Quasiparticle Phonon” A. I. Vdovin and N . Yu. Shirikova1. Motivation2. Transition matrix element3. Numerical results4. ConclusionAcknowledgmentsReferencesCollective Modes in Fast Rotating Nuclei J. Kvmil, N. Lo Iudice, R. G. Nazmitdinov, A. Porrino, and F. Knapp1. Introduction2. RPA in the rotating frame3. Calculations and results4. ConclusionsAcknowledgmentsReferencesRecent Experiments on Particle-Accompanied Fission M. Mutterer, Yu. N. Kopatch, P. Jesinger, A. M. Gagarski, M. Speransky, V. Tishchenko, F. Gonnenwein, J. v. Kalben, S. G. Khlebnikov, I. Kojouharov, E. Lubkiewics, Z. Mezenzeva, V. Nesvishevsky, G. A . Petrov, H. Schaffner, H. Schanna, D. Schwalm, P. Thirolf, W. H. Trzaska, G. P. Tyurin, and H.-J. Wollersheim1. Introduction2. Energy Correlations in the Ternary Fission of 252Cfsf)3. Intermediate 5He, 7He and 8Li* LCPs in 252Cfsf)4. 7-Ray Emission in 252Cfsf) Ternary Fission5. Sequential LCP Decay and Quaternary Fission of 252Cfsf) and 233~235Unth,f)6. Energy Correlations in Ternary and Quaternary Fission of 235Unth,f)7. Summary and OutlookAcknowledgementsReferencesPotential Barriers in the Quasi-Molecular Deformation Path for Actinides G. Royer and C. Bonilla1. Introduction2. Potential energy3. One and two-body shapes4. Potential barriers5. Third barrier and half-lives6. Summary and conclusionReferencesSemiclassical Quantization of the Triaxial Rigid Rotator: Density of States and Spectral Statistics J. M. G. Gdmez, V. R. Manfredi, A . Relanlo, and L. Salasnich1. Introduction2. Semiclassical Quantization3. Global spectral properties4. Local spectral properties5. ConclusionsReferencesSection V SPECIAL TOPICSChaos and 1/f Noise in Nuclear Spectra J . M. G. Gomez, A . Relaiio, J. Retamosa, R. A . Molina, and E. Faleiro1. Introduction2. Outline of the power spectrum approach3. Results and discussion4. The power spectrum conjecture5. ConclusionsReferencesSuper-Radiance: From Nuclear Physics to Pentaquarks V. Zelevinsky and A . Volya1. Introduction2. Ingredients of the theory3. SR phase transition4. Some applications4.1. Two collectivities4.2. Loosely bound nuclei5. Widths of exotic baryons6. ConclusionReferencesThe Physics of Protein Folding and of Drug Design R . A . Broglia and G. Tiana1. Introduction2. The model3. Folding of small proteins4. Drug DesignReferencesList of ParticipantsAuthor Index
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