[1] N. Ahsan and A. Volya, Nuclear Many-Body Physics Where Structure and Reactions Meet (World Scientific Pub Co Inc, 2008), p. 539.

[2] N. Auerbach, V. Zelevinsky, and A. Volya, "Super-radiance" and the width of exotic baryons, Phys. Lett. B 590, 45 (2004).

[3] B. A. Brown, R. R. C. Clement, H. Schatz, A. Volya, and W. A. Richter, Proton drip-line calculations and the rp process, Phys. Rev. C 65, 045802 (2002).

[4] L. Buchmann, J. D'Auria, M. Dombsky, U. Giesen, K. P. Jackson, P. McNeely, J. Powell, and A. Volya, beta-delayed alpha emission of ¹⁸N: Broad Jpi = 1^- states in the ¹⁴C +alpha system, Phys. Rev. C 75, 012804 (2007).

[5] R. R. C. Clement, W. Benenson, B. A. Brown, W. A. Richter, H. Schatz, B. M. Sherrill, and A. Volya, Sensitivities of rp-process calculations to nuclear mass uncertainties, Nucl. Phys. A 718, 617C (2003).

[6] T. A. Hinners, V. Tripathi, S. L. Tabor, A. Volya, P. C. Bender, C. R. Hoffman, S. Lee, M. Perry, P. F. Mantica, A. D. Davies, S. N. Liddick, W. F. Mueller, A. Stolz, and B. E. Tomlin, Complementary studies of T = 2 ³⁰Al and the systematics of intruder states, Phys. Rev. C 77, 034305 (2008).

[7] M. Horoi, A. Volya, and V. Zelevinsky, Random interactions, isospin, and the ground states of odd-A and odd-odd nuclei, Phys. Rev. C 66, 024319 (2002).

[8] M. Horoi, A. Volya, and V. Zelevinsky, Chaotic wave functions and exponential convergence of low-lying energy eigenvalues, Phys. Rev. Lett. 82, 2064 (1999).

[9] S. Lee, S. L. Tabor, A. Volya, A. Aguilar, P. C. Bender, T. A. Hinners, C. R. Hoffman, M. Perry, and V. Tripathi, Electromagnetic transitions in neutron-rich [sup 22]F, Phys. Rev. C 76, 034308 (2007).

[10] D. Mulhall, A. Volya, and V. Zelevinsky, Random interactions: Shedding light on nuclear structure, Nucl. Phys. A 682, 229C (2001).

[11] D. Mulhall, A. Volya, and V. Zelevinsky, Geometric chaoticity leads to ordered spectra for randomly interacting fermions, Phys. Rev. Lett. 85, 4016 (2000).

[12] D. Mulhall, V. Zelevinsky, and A. Volya, Spin ordering of nuclear spectra from random interactions, Acta Physica Polonica B 32, 2491 (2001).

[13] P. N. Peplowski, L. T. Baby, I. Wiedenhover, S. E. Dekat, E. Diffenderfer, D. L. Gay, O. Grubor-Urosevic, P. Hoflich, R. A. Kaye, N. Keeley, A. Rojas, and A. Volya, Lowest l = 0 proton resonance in [sup 26]Si and implications for nucleosynthesis of [sup 26]Al, Phys.Rev.C 79, 032801 (2009).

[14] K. Per\"aj\"arvi, C. Fu, G. V. Rogachev, G. Chubarian, V. Z. Goldberg, F. Q. Guo, D. Lee, D. M. Moltz, J. Powell, B. B. Skorodumov, G. Tabacaru, X. D. Tang, R. E. Tribble, B. A. Brown, A. Volya, and J. Cerny, Structure of ¹²N using ¹¹C+p resonance scattering, Phys. Rev. C 74, 024306 (2006).

[15] G. V. Rogachev, J. J. Kolata, A. Volya, F. D. Becchetti, Y. Chen, P. A. DeYoung, and J. Lupton, Spectroscopy of 9C via resonance scattering of protons on 8B, Phys. Rev. C 75, 014603 (2007).

[16] T. Sumaryada and A. Volya, Thermodynamics of pairing in mesoscopic systems, Phys. Rev. C 76, 024319 (2007).

[17] V. Tripathi, S. L. Tabor, C. R. Hoffman, M. Wiedeking, A. Volya, P. F. Mantica, A. D. Davies, S. N. Liddick, W. F. Mueller, A. Stolz, and B. E. Tomlin, beta-delayed gamma spectroscopy of neutron rich Na-27,Na-28,Na-29, Phys. Rev. C 73, 054303 (2006).

[18] V. Tripathi, S. L. Tabor, P. F. Mantica, C. R. Hoffman, M. Wiedeking, A. D. Davies, S. N. Liddick, W. F. Mueller, T. Otsuka, A. Stolz, B. E. Tomlin, Y. Utsuno, and A. Volya, Na-29: Defining the edge of the island of inversion for Z=11, Phys. Rev. Lett. 94, 162501 (2005).

[19] V. Tripathi, S. L. Tabor, P. F. Mantica, C. R. Hoffman, M. Wiedeking, A. D. Davies, S. N. Liddick, W. F. Mueller, A. Stolz, B. E. Tomlin, and A. Volya, Voyage to the "island of inversion": Na-29, Eur. Phys. J. A 25, 101 (2005).

[20] V. Tripathi, S. L. Tabor, P. F. Mantica, Y. Utsuno, P. Bender, J. Cook, C. R. Hoffman, S. Lee, T. Otsuka, J. Pereira, M. Perry, K. Pepper, J. S. Pinter, J. Stoker, A. Volya, and D. Weisshaar, Intruder Configurations in the A=33 isobars: Mg-33 and Al-33, Phys. Rev. Lett. 101, 142504 (2008).

[21] V. Tripathi, S. L. Tabor, P. F. Mantica, Y. Utsuno, P. Bender, J. Cook, C. R. Hoffman, S. Lee, T. Otsuka, J. Pereira, M. Perry, K. Pepper, J. S. Pinter, J. Stoker, A. Volya, and D. Weisshaar, Competition between normal and intruder states inside the ``island of inversion'', Phys. Rev. C 76, 021301 (2007).

[22] V. Tripathi, S. L. Tabor, P. F. Mantica, Y. Utsuno, P. Bender, J. Cook, C. R. Hoffman, S. Lee, T. Otsuka, J. Pereira, M. Perry, K. Pepper, J. S. Pinter, J. Stoker, A. Volya, and D. Weisshaar, Erratum: Competition between normal and intruder states inside the ``island of inversion'' [Phys. Rev. C 76, 021301 (2007)], Phys. Rev. C 76, 049902 (2007).

[23] C. Vaman, C. Andreoiu, D. Bazin, A. Becerril, B. A. Brown, C. M. Campbell, A. Chester, J. M. Cook, D. C. Dinca, A. Gade, D. Galaviz, T. Glasmacher, M. Hjorth-Jensen, M. Horoi, D. Miller, V. Moeller, W. F. Mueller, A. Schiller, K. Starosta, A. Stolz, J. R. Terry, A. Volya, V. Zelevinsky, and H. Zwahlen, Z = 50 Shell Gap near [sup 100]Sn from Intermediate-Energy Coulomb Excitations in Even-Mass [sup 106-112]Sn Isotopes, Phys. Rev. Lett. 99, 162501 (2007).

[24] A. Volya, Exploring Effective Three-body Forces, in Proceedings of the 27th International Workshop on Nuclear Theory, Rila, Bulgaria, June 2008, edited by S. Dimitrova(Institute for Nuclear Research and Nuclear Theory, Sofia, Bulgaria, 2008), p. 215.

[25] A. Volya, Applications of Continuum Shell Model, in Opportunities with exotic beams
3rd ANL/MSU/INT/JINA Theory Workshop , Argonne National Laboratory, 4-7 April 2006, edited by T. Duguet, H. Esbensen, K. Nollett M and C. Roberts D (World Scientific, Singapore, 2007), p. 132.

[26] A. Volya, From nuclear structure to reactions with a unified continuum shell model approach, J. Phys. 49, 67 (2006).

[27] A. Volya, Coherent and chaotic phenomena in nuclear matter (Michigan State University, East Lansing, MI, 2000).

[28] A. Volya and V. Zelevinsky, Collective many-body dynamics in the vicinity of nuclear driplines, Nucl. Phys. 788, 251c (2007).

[29] A. Volya, Interplay of pairing and multipole interactions in a simple model, Phys. Rev. C 65, 044311 (2002).

[30] A. Volya, B. A. Brown, and V. Zelevinsky, Towards a better understanding of nuclear pairing and its interplay with other residual interactions, Prog. Theor. Phys. Supp. 146, 636 (2002).

[31] A. Volya, B. A. Brown, and V. Zelevinsky, Exact solution of the nuclear pairing problem, Phys. Lett. B 509, 37 (2001).

[32] A. Volya and C. Davids, Nuclear pairing and Coriolis effects in proton emitters, Eur. Phys. J. A 25, 161 (2005).

[33] A. Volya and H. Esbensen, Dynamic polarization effects in Coulomb excitation, J. Opt. B 5, S407 (2003).

[34] A. Volya and H. Esbensen, Role of E1-E2 interplay in multiphonon Coulomb excitation, Phys. Rev. C 66, 044604 (2002).

[35] A. Volya, K. Haglin, S. Pratt, and V. Dmitriev, Exploring the nuclear pion dispersion relation through the anomalous coupling gamma ->gamma ' pi(0), J. Phys. G 25, 2049 (1999).

[36] A. Volya, S. Pratt, and V. Zelevinsky, Multiple pion production from an oriented chiral condensate, Nucl. Phys. A 671, 617 (2000).

[37] A. Volya, S. Pratt, and V. Zelevinsky, Modeling pionic fusion, Phys. Rev. C 59, 305 (1999).

[38] A. Volya and V. Zelevinsky, Collective dipole excitations in the continuum shell model, Physica Scripta T125, 224 (2006).

[39] A. Volya and V. Zelevinsky, Discrete and continuum spectra in the unified shell model approach, Phys. Rev. Lett. 94, 052501 (2005).

[40] A. Volya and V. Zelevinsky, Many-body physics on the border of nuclear stability, AIP Conf. Proc. 764, 295 (2005).

[41] A. Volya and V. Zelevinsky, Super-radiance and open quantum systems, AIP Conf. Proc. 777, 229 (2005).

[42] A. Volya and V. Zelevinsky, Order generated by random many-body dynamics, Acta Phys. Hungarica 19, 221 (2004).

[43] A. Volya and V. Zelevinsky, Invariant correlational entropy as a signature of quantum phase transitions in nuclei, Phys. Lett. B 574, 27 (2003).

[44] A. Volya and V. Zelevinsky, Exploring quantum dynamics in an open many-body system: transition to superradiance, J. Opt. B 5, S450 (2003).

[45] A. Volya and V. Zelevinsky, Non-Hermitian effective Hamiltonian and continuum shell model, Phys. Rev. C 67, 054322 (2003).

[46] A. Volya, V. Zelevinsky, and B. Alex Brown, Coherent and chaotic properties of nuclear pairing, Phys. Rev. C 65, 054312 (2002).

[47] A. Volya, Emergence of Symmetry from Random n-Body Interactions, Phys. Rev. Lett. 100, 162501 (2008).

[48] A. Volya and V. Zelevinsky, Continuum shell model, Phys. Rev. C 74, 064314 (2006).

[49] A. Volya and V. Zelevinsky, Many-Body Dynamics Coupled to Continuum and ``Pygmy''-Resonances, AIP Conf. Proc. 802, 296 (2005).

[50] M. Wiedeking and et. al., 16C and 18N: Lifetime Measurements of their first-excited states, in 4th International Conference on Fission and Properties of Neutron-Rich Nuclei, Sanibel Island, Florida, USA, November 11 - 17, 2007, edited by J. H. Hamilton, A. V. Ramayya and H. K. Carter , 2008), p. 548.

[51] M. Wiedeking, P. Fallon, A. O. Macchiavelli, L. A. Bernstein, J. Gibelin, L. Phair, J. T. Burke, D. L. Bleuel, R. M. Clark, M. Deleplanque, S. Gros, R. Hatarik, H. B. Jeppesen, I. Lee, B. F. Lyles, M. A. McMahan, L. G. Moretto, J. Pavan, E. Rodriguez-Vieitez, and A. Volya, Nuclear structure of ¹⁸N and the neighboring N = 11 isotones, Phys. Rev. C 77, 054305 (2008).

[52] M. Wiedeking, E. Rodriguez-Vieitez, P. Fallon, M. P. Carpenter, R. M. Clark, D. Cline, M. Cromaz, M. Descovich, R. V. F. Janssens, I. -. Lee, M. -. Deleplanque, A. O. Macchiavelli, F. S. Stephens, R. Teng, X. Wang, D. Ward, C. Y. Wu, S. Zhu, T. Otsuka, Y. Utsuno, and A. Volya, Intruder excitations in [sup 35]P, Phys. Rev. C 78, 037302 (2008).

[53] M. Wiedeking, S. L. Tabor, J. Pavan, A. Volya, A. L. Aguilar, I. J. Calderin, D. B. Campbell, W. T. Cluff, E. Diffenderfer, J. Fridmann, C. R. Hoffman, K. W. Kemper, S. Lee, M. A. Riley, B. T. Roeder, C. Teal, V. Tripathi, and I. Wiedenhover, p-sd Shell gap reduction in neutron-rich systems and cross-shell excitations in O-20, Phys. Rev. Lett. 94, 132501 (2005).

[54] V. Zelevinsky and A. Volya, Random Interactions and Ground State Spin of Finite Fermi Systems, in RECENT PROGRESS IN MANY-BODY THEORIES
Proceedings of the 12th International Conference, Santa Fe, New Mexico, 3 - 27 August 2004, edited by J. Carlson and G. Ortiz (World Scientific, 2006), p. 2730.

[55] V. Zelevinsky and A. Volya, From super-radiance to continuum shell model, in EXOTIC NUCLEI AND NUCLEAR/PARTICLE ASTROPHYSICS
Proceedings of the Carpathian Summer School of Physics 2005, Mamaia-Constanta, Romania, 13 - 24 June 2005, edited by S. Stoica, R. Tribble and L. Trache (World Scientific, 2006), p. 55.

[56] V. Zelevinsky and A. Volya, Random interactions and ground state spin of finite fermi systems, Int. J. Mod. Phys. B 20, 2730 (2006).

[57] V. Zelevinsky and A. Volya, Unified approach to nuclear
structure, reactions and giant resonances, in Proceedings of the 11th
Varenna Conference on Nuclear Reaction Mechanisms, Varenna, Villa, 12-16 June 2006, edited by E. Gadioli (Universit\grave{a}degli Studi di Milano, 2006), p. 73.

[58] V. Zelevinsky and A. Volya, Super-Radiance: From Nuclear Physics to Pentaquarks, in Proceedings of the 8th International Spring Seminar on Nuclear Physics, Paestum, Italy, 23–27 May 2004, edited by A. Covello (World Scientific, 2005), p. 585.

[59] V. Zelevinsky and A. Volya, A soft mode in a finite Fermi-system: anharmonic effects near the instability point, in Perspectives of Nuclear Structure and Nuclear Reactions : Collection of Papers, Dedicated to the 60th Anniversary of the Birthday of Rostislav Jolos (JINR, Dubna, 2002), p. 101.

[60] V. Zelevinsky, A. Volya, and N. Auerbach, Nuclear Schiff moment and soft vibrational modes, Phys. Rev. C 78, 014310 (2008).

[61] V. Zelevinsky and A. Volya, The nuclear pairing problem: new perspectives, Nucl. Phys. A 752, 325C (2005).

[62] V. Zelevinsky and A. Volya, Pairing correlations in nuclei: old knowledge and new ideas, Nucl. Phys. A 731, 299 (2004).

[63] V. Zelevinsky and A. Volya, Nuclear structure, random interactions and mesoscopic physics, Physics Reports 391, 311 (2004).

[64] V. Zelevinsky and A. Volya, Nuclear pairing: new perspectives, Physics of Atomic Nuclei 66, 1829 (2003).

[65] V. Zelevinsky and A. Volya, Randomness and collectivity in nuclear structure: three theoretical puzzles, in Challenges of Nuclear Structure. Proceedings of the 7th International Spring Seminar on Nuclear Physics, edited by A. Covello (World Scientific, Singapure, 2002), p. 261.

[66] V. Zelevinsky, A. Volya, and D. Mulhall, Shell model with random interactions, in Nuclear Many-Body Problem 2001. Proceedings of the NATO Advanced Research Workshop, Nazarewicz, W.; Vretenar, D. (Kluwer Academic Publishers, Netherlands, 2002), p. 345.

[67] V. G. Zelevinsky, D. Mulhall, and A. Volya, Do we understand the role of incoherent interactions in many-body physics? Physics of Atomic Nuclei 64, 525 (2001).

[68] V. Zelevinsky and A. Volya, Quantum chaos and nuclear physics, Phys. Scripta T125, 147 (2006).

[69] V. Zelevinsky and A. Volya, Continuum Shell Model, Reactions and Giant Resonances, AIP Conf. Proc. 819, 493 (2006).