NSR Query Results
Output year order : Descending NSR database version of April 26, 2024. Search: Author = A.Chaudhuri Found 97 matches. 2021MA77 Eur.Phys.J. A 57, 286 (2021) S.Manna, T.K.Rana, C.Bhattacharya, S.Kundu, R.Pandey, K.Banerjee, P.Roy, A.Sen, T.K.Ghosh, G.Mukherjee, D.Mondal, M.M.Shaikh, J.K.Meena, P.Karmakar, D.Paul, K.Atreya, S.Basu, V.Srivastava, A.Chaudhuri, T.Roy, A.Asgar, A.Dey, A.Dhal, M.Sinha, J.K.Sahoo, A.K.Saha, R.M.Saha, S.Bhattacharya Search for the Hoyle analogue state in 16O NUCLEAR REACTIONS 16O, 12C(α, X), E=45 MeV; measured reaction products, Eα, Iα. 16O, 12C, 8Be; deduced σ, specific decay channels, lack of evidence for the Hoyle analogue state.
doi: 10.1140/epja/s10050-021-00592-8
2019AS06 Eur.Phys.J. A 55, 175 (2019) Md.A.Asgar, G.Mukherjee, T.Roy, S.Nandi, G.H.Bhatt, J.A.Sheikh, R.Palit, S.Bhattacharyya, S.Bhattacharya, C.Bhattacharya, A.Dhal, T.K.Ghosh, A.Chaudhuri, K.Banerjee, S.Kundu, T.K.Rana, P.Roy, R.Pandey, S.Manna, J.K.Meena, S.Saha, S.Biswas, J.Sethi, P.Singh, D.Choudhury Band structures in 169Tm and the structures of Tm isotopes around N=98
doi: 10.1140/epja/i2019-12882-3
2019RA29 Phys.Lett. B 793, 130 (2019) T.K.Rana, S.Bhattacharya, C.Bhattacharya, S.Manna, S.Kundu, K.Banerjee, R.Pandey, P.Roy, A.Dhal, G.Mukherjee, V.Srivastava, A.Dey, A.Chaudhuri, T.K.Ghosh, A.Sen, Md.A.Asgar, T.Roy, J.K.Sahoo, J.K.Meena, A.K.Saha, R.M.Saha, M.Sinha, A.Roy New high precision study on the decay width of the Hoyle state in 12C RADIOACTIVITY 12C(3α) [from 12C(α, α), E=15 MeV/nucleon]; measured decay products, EnullIα; deduced Dalitz plots, the upper limit for direct decay.
doi: 10.1016/j.physletb.2019.04.028
2017AS01 Phys.Rev. C 95, 031304 (2017) Md.A.Asgar, T.Roy, G.Mukherjee, A.Dhal, S.Bhattacharya, S.Bhattacharyya, C.Bhattacharya, S.Bhattacharya, A.Chaudhuri, K.Banerjee, S.Kundu, S.Manna, R.Pandey, J.K.Meena, R.Palit, S.Biswas, S.Saha, J.Sethi, P.Singh, D.Choudhury Return of backbending in 169Tm and the effect of the N=98 deformed shell gap NUCLEAR REACTIONS 169Tm(32S, 32S'), E=164 MeV; measured Eγ, Iγ, γγ-coin, γγ(θ)(DCO), γγ(linear polarization) using INGA array at 14-UD BARC-TIFR Pelletron facility. 169Tm; deduced high-spin levels, J, π, multipolarities, bands, configurations, alignments, band crossings, deformation parameters. Comparison with cranked shell model calculations. Systematics of alignment plots of rotational bands in 165,167,169Tm nuclei. NUCLEAR STRUCTURE 165,167,169Tm; calculated total Routhian surface (TRS) contours, quasineutron energy levels, crossing frequencies and interaction strengths at the band crossings in 1/2[411] bands. Comparison with experimental band crossing frequencies. Cranked shell model calculations.
doi: 10.1103/PhysRevC.95.031304
2017BR14 Phys.Rev. C 96, 034316 (2017) M.Brodeur, A.A.Kwiatkowski, O.M.Drozdowski, C.Andreoiu, D.Burdette, A.Chaudhuri, U.Chowdhury, A.T.Gallant, A.Grossheim, G.Gwinner, H.Heggen, J.D.Holt, R.Klawitter, J.Lassen, K.G.Leach, A.Lennarz, C.Nicoloff, S.Raeder, B.E.Schultz, S.R.Stroberg, A.Teigelhofer, R.Thompson, M.Wieser, J.Dilling Precision mass measurements of magnesium isotopes and implications for the validity of the isobaric mass multiplet equation ATOMIC MASSES 27,28,29Mg; measured cyclotron frequencies, mass excesses using TITAN Penning trap at ISAC-TRIUMF facility; deduced S(p). Comparison with AME-2016 evaluated data, and with ab initio calculations from the valence-space in-medium similarity renormalization group. 27,28,29Mg produced in SiC(p, X), E=480 MeV reaction, followed by laser resonance ionization in a radio-frequency ion guide (IG-LIS).29Mg, 29Cl, 30Mg, 30Ar; analyzed isobaric mass multiplet equation (IMME) in the form of a cubic term. 28S, 29Cl; need to confirm mass excess of 28S and S(n) of 29Cl.
doi: 10.1103/PhysRevC.96.034316
2017PA18 Phys.Rev. C 95, 064603 (2017) R.Pandey, S.Kundu, C.Bhattacharya, K.Banerjee, T.K.Rana, S.Manna, G.Mukherjee, J.K.Meena, A.Chaudhuri, T.Roy, P.Roy, Md.A.Asgar, V.Srivastava, A.Dey, M.Sinha, T.K.Ghosh, S.Bhattacharya, S.K.Pandit, K.Mahata, P.Patle, S.Pal, A.Shrivastava, V.Nanal Fragment emission mechanism in the 32S+12C reaction NUCLEAR REACTIONS 12C(32S, X), E=200, 220 MeV; measured two-dimensional spectra and double-differential σ(θ, E) of 6,7Li, 7,9Be, 10,11B, C, N and O fragments at BARC-TIFR Pelletron-Linac facility; deduced average Q value and total cross sections of fragments, 16O/12C yield and σ(fragment)/σ(12C) as function of excitation energy. Comparison with theoretical calculations using extended Hauser-Feshbach model (EHFM).
doi: 10.1103/PhysRevC.95.064603
2017SR04 Int.J.Mod.Phys. E26, 1750064 (2017) V.Srivastava, C.Bhattacharya, T.K.Rana, S.Manna, S.Kundu, S.Bhattacharya, K.Banerjee, P.Roy, R.Pandey, G.Mukherjee, T.K.Ghosh, J.K.Meena, T.Roy, A.Chaudhuri, M.Sinha, A.K.Saha, Md.A.Asgar, A.Dey, S.Roy, Md.M.Shaikh Study of 26Mg through 1p pick-up reaction 27Al(d, 3He) NUCLEAR REACTIONS 27Al(d, 3He), E=25 MeV; measured reaction products; deduced excitation energy spectra, σ(θ), spectroscopic factors. Comparison with DWBA calculations.
doi: 10.1142/S0218301317500641
2016BA32 Phys.Rev. C 93, 064602 (2016) K.Banerjee, T.K.Ghosh, P.Roy, S.Bhattacharya, A.Chaudhuri, C.Bhattacharya, R.Pandey, S.Kundu, G.Mukherjee, T.K.Rana, J.K.Meena, G.Mohanto, R.Dubey, N.Saneesh, P.Sugathan, R.Guin, S.Das, P.Bhattacharya Fission dynamics study in 243Am and 254Fm NUCLEAR REACTIONS 232Th, 243Am(11B, F), E=56, 59, 61, 63, 66, 70, 74 MeV; measured fission fragment mass distributions, distribution of velocity of the fissioning nuclei, folding angle distribution of all the fission fragments, fission fragment angular anisotropies at 15UD Pelletron accelerator of IUAC-New Delhi; deduced departure from statistical saddle-point model predictions at near-barrier energies, and the presence of nonequilibrium fission processes.
doi: 10.1103/PhysRevC.93.064602
2016CH34 Phys.Rev. C 94, 024617 (2016) A.Chaudhuri, A.Sen, T.K.Ghosh, K.Banerjee, J.Sadhukhan, S.Bhattacharya, P.Roy, T.Roy, C.Bhattacharya, Md.A.Asgar, A.Dey, S.Kundu, S.Manna, J.K.Meena, G.Mukherjee, R.Pandey, T.K.Rana, V.Srivastava, R.Dubey, G.Kaur, N.Saneesh, P.Sugathan, P.Bhattacharya Fission fragment mass distributions in reactions populating 200Pb NUCLEAR REACTIONS 184W(16O, X)200Pb*, E*=58.6, 64.1, 69.6, 75.2 MeV; 181Ta(19F, X)200Pb*, E*=59.6, 65.0, 70.4, 75.9 MeV; measured mass distributions of fission fragments as function of excitation energy, and mass angle distributions using sensitive multiwire proportional counters (MWPCs) and pulsed beams at 15UD Pelletron accelerator facility of IUAC-New Delhi; deduced no evidence for quasifission.
doi: 10.1103/PhysRevC.94.024617
2016KL04 Phys.Rev. C 93, 045807 (2016) R.Klawitter, A.Bader, M.Brodeur, U.Chowdhury, A.Chaudhuri, J.Fallis, A.T.Gallant, A.Grossheim, A.A.Kwiatkowski, D.Lascar, K.G.Leach, A.Lennarz, T.D.Macdonald, J.Pearkes, S.Seeraji, M.C.Simon, V.V.Simon, B.E.Schultz, J.Dilling Mass measurements of neutron-rich Rb and Sr isotopes ATOMIC MASSES 98,99,100Rb, 98,99,100,101Sr; measured cyclotron frequency using the time-of-flight ion-cyclotron-resonance technique (TOF-ICR) using TITAN Penning-trap mass spectrometer at ISAC-TRIUMF; deduced mass excesses. Comparison with previous measurements and AME-2012 evaluation. Rb and Sr ions produced in U(p, F), E=480 MeV reaction and separated by a dipole magnet.
doi: 10.1103/PhysRevC.93.045807
2016MA74 Phys.Rev. C 94, 051601 (2016) S.Manna, T.K.Rana, C.Bhattacharya, S.Bhattacharya, S.Kundu, K.Banerjee, P.Roy, R.Pandey, V.Srivastava, A.Chaudhuri, T.Roy, T.K.Ghosh, G.Mukherjee, J.K.Meena, S.K.Pandit, K.Mahata, A.Shrivastava, V.Nanal Survival of cluster correlation in dissipative binary breakup of 24, 25Mg* NUCLEAR REACTIONS 12C(12C, X)6Li/7Li/7Be/8Be/9Be, E=80 MeV; 12C(13C, X)6Li/7Li/7Be/8Be/9Be, E=78.5 MeV; measured energy distributions and angular distributions of the emitted fragments, 2α spectrum from 8Be, using telescopes of single-sided silicon strip detector (SSSD), and double-sided silicon strip detector (DSSD) at TIFR-BARC Pelletron-Linac facility; deduced cross section ratios, cluster correlations in the decay of the light compound systems 24,25Mg formed in the two reactions. Comparison with statistical model calculations CASCADE and GEMINI++ codes.
doi: 10.1103/PhysRevC.94.051601
2016SR02 Phys.Rev. C 93, 044601 (2016) V.Srivastava, C.Bhattacharya, T.K.Rana, S.Manna, S.Kundu, S.Bhattacharya, K.Banerjee, P.Roy, R.Pandey, G.Mukherjee, T.K.Ghosh, J.K.Meena, T.Roy, A.Chaudhuri, M.Sinha, A.K.Saha, Md.A.Asgar, A.Dey, S.Roy, Md.M.Shaikh Experimental investigation of T=1 analog states of 26Al and 26Mg NUCLEAR REACTIONS 27Al(d, 3He)26Mg, E=25 MeV; measured 3He spectra, σ(θ) at VECC, Kolkata. 26Mg; deduced levels, J, π, spectroscopic factors of the lowest (T=1) states using zero-range distorted wave Born approximation. Comparison with T=1 analog states in 26Al.
doi: 10.1103/PhysRevC.93.044601
2015CH26 Phys.Rev. C 91, 044620 (2015) A.Chaudhuri, T.K.Ghosh, K.Banerjee, S.Bhattacharya, J.Sadhukhan, C.Bhattacharya, S.Kundu, J.K.Meena, G.Mukherjee, R.Pandey, T.K.Rana, P.Roy, T.Roy, V.Srivastava, P.Bhattacharya Direct evidence of "washing out"' of nuclear shell effects NUCLEAR REACTIONS 232Th(α, F), E=7.7, 25-65 MeV; measured fission fragments, fission σ(E), distributions of folding angles of the fissioning nuclei, fission fragment mass distributions as function of excitation energies at VECC, Kolkata facility; deduced width of fitted symmetric mass distribution, evidence for weakening of shell effect with increase in excitation energy.
doi: 10.1103/PhysRevC.91.044620
2015CH55 Phys.Rev. C 92, 041601 (2015) A.Chaudhuri, T.K.Ghosh, K.Banerjee, S.Bhattacharya, J.Sadhukhan, S.Kundu, C.Bhattacharya, J.K.Meena, G.Mukherjee, A.K.Saha, Md.A.Asgar, A.Dey, S.Manna, R.Pandey, T.K.Rana, P.Roy, T.Roy, V.Srivastava, P.Bhattacharya, D.C.Biswas, B.N.Joshi, K.Mahata, A.Shrivastava, R.P.Vind, S.Pal, B.R.Behera, V.Singh No influence of a N=126 neutron-shell closure in fission-fragment mass distributions NUCLEAR REACTIONS 194Pt(12C, F)206Po*, 198Pt(12C, F)210Po*, E=58-78 MeV; measured fission fragment spectra, distributions of folding angles and mass distributions of complementary fission fragments using multi-wire proportional counters (MWPC) at BARC-TIFR Pelletron facility; deduced effect of shell correction in the saddle ridge on the mass distribution of fission fragments, no evidence for the modification of potential energy surface at the saddle point due to N=126 neutron shell closure in 210Po.
doi: 10.1103/PhysRevC.92.041601
2015CH58 Phys.Rev. C 92, 045803 (2015) U.Chowdhury, K.G.Leach, C.Andreoiu, A.Bader, M.Brodeur, A.Chaudhuri, A.T.Gallant, A.Grossheim, G.Gwinner, R.Klawitter, A.A.Kwiatkowski, A.Lennarz, T.D.Macdonald, J.Pearkes, B.E.Schultz, J.Dilling First direct mass measurement of the neutron-deficient nucleus 24Al ATOMIC MASSES 24Al; measured time-of-flight quadrupole excitation resonance spectrum for 24Al ions, mass excess using TITAN Penning-Trap mass spectrometer and Ion-Guide Laser Ion Source (IG-LIS) at TRIUMF; deduced S(p). Comparison with other data and with AME-2012. NUCLEAR REACTIONS 23Mg(p, γ)24Al; measured reaction resonance energy of astrophysical interest. Comparison with data from DRAGON at TRIUMF.
doi: 10.1103/PhysRevC.92.045803
2015GH05 Pramana 85, 291 (2015) T.K.Ghosh, A.Chaudhuri, K.Banerjee, S.Bhattacharya, C.Bhattacharya, S.Kundu, G.Mukherjee, R.Pandey, T.K.Rana, P.Roy, T.Roy, V.Srivastava, P.Bhattacharya Fusion-fission dynamics studies using mass distribution as a probe NUCLEAR REACTIONS 209Bi(16O, X), E(cm)<85 MeV; 238U(11B, X), 232Th(14N, X), E<60 MeV; measured fission products; deduced variance of mass distributions, mass distribution in fission, variation of the ratio (relative unit) of the symmetric fission yield to the total fission yield at different excitation energies.
doi: 10.1007/s12043-015-1043-3
2015KW01 Phys.Rev. C 92, 061301 (2015) A.A.Kwiatkowski, C.Andreoiu, J.C.Bale, A.Chaudhuri, U.Chowdhury, S.Malbrunot-Ettenauer, A.T.Gallant, A.Grossheim, G.Gwinner, A.Lennarz, T.D.Macdonald, T.J.M.Rauch, B.E.Schultz, S.Seeraji, M.C.Simon, V.V.Simon, D.Lunney, A.Poves, J.Dilling Observation of a crossover of S2n in the island of inversion from precision mass spectrometry ATOMIC MASSES 27,29,30,31,32,33,34Al; measured TOF-ICR resonance, mass excess using Ion Trap for Atomic and Nuclear science (TITAN) Penning-trap facility at TRIUMF. Comparison with AME-2012, and previous experimental values. Systematics of S(2n) values for 28,29,30,31,32,33,34,35,36,37Mg, 29,30,31,32,33,34,35,36,37,38Al, comparison of experimental and theoretical values; deduced crossover at N=21 in the island of inversion. Large-scale shell-model calculations.
doi: 10.1103/PhysRevC.92.061301
2015MA30 Phys.Rev. C 91, 045504 (2015) S.Malbrunot-Ettenauer, T.Brunner, U.Chowdhury, A.T.Gallant, V.V.Simon, M.Brodeur, A.Chaudhuri, E.Mane, M.C.Simon, C.Andreoiu, G.Audi, J.R.C.Lopez-Urrutia, P.Delheij, G.Gwinner, A.Lapierre, D.Lunney, M.R.Pearson, R.Ringle, J.Ullrich, J.Dilling Penning trap mass measurements utilizing highly charged ions as a path to benchmark isospin-symmetry breaking corrections in 74Rb ATOMIC MASSES 74Ga, 74,75,76,85,87Rb; measured cyclotron frequency ratios of Rb isotopes in q=8-12 charge states relative to that of 85Rb using TITAN at TRIUMF-ISAC facility; deduced mass excesses and compared to previous experimental data. RADIOACTIVITY 74Rb(EC); deduced Q value and logft using mass excess from current and previous studies. Systematics of superallowed β decays of 42Sc, 46V, 50Mn, 54Co, 62Ga, 74Rb. Discussed test of the isospin-symmetry correction term δC. NUCLEAR REACTIONS Nb(p, X)74Rb/75Rb/76Rb/78Rb/74Ga, E=500 MeV; measured yields, TOF ion-cyclotron resonances for highly-charged Rb isotopes, TOF of ions with reference to highly-charged 85Rb isotope using TITAN at TRIUMF-ISAC facility.
doi: 10.1103/PhysRevC.91.045504
2015SR03 Phys.Rev. C 91, 054611 (2015) V.Srivastava, C.Bhattacharya, T.K.Rana, S.Manna, S.Kundu, S.Bhattacharya, K.Banerjee, P.Roy, R.Pandey, G.Mukherjee, T.K.Ghosh, J.K.Meena, T.Roy, A.Chaudhuri, M.Sinha, A.Saha, Md.A.Asgar, A.Dey, S.Roy, Md.M.Shaikh Experimental study of 26Al through the 1n pick-up reaction 27Al(d, t) NUCLEAR REACTIONS 27Al(d, t), E=25 MeV; measured E(t), I(t), σ(θ) at VECC-Kolkata facility. 26Al; deduced levels, J, π, spectroscopic factors. DWBA calculations using DWUCK4 computer code. Comparison with experimental results from other particle-transfer experiments.
doi: 10.1103/PhysRevC.91.054611
2015ST15 Phys.Rev.Lett. 115, 182501 (2015) M.G.Sternberg, R.Segel, N.D.Scielzo, G.Savard, J.A.Clark, P.F.Bertone, F.Buchinger, M.Burkey, S.Caldwell, A.Chaudhuri, J.E.Crawford, C.M.Deibel, J.Greene, S.Gulick, D.Lascar, A.F.Levand, G.Li, A.Perez Galvan, K.S.Sharma, J.Van Schelt, R.M.Yee, B.J.Zabransky Limit on Tensor Currents from 8Li β Decay RADIOACTIVITY 8Li(β-) [from 7Li(d, p), E not given]; measured decay products, Eβ, Iβ, Eα, Iα. 6He; deduced β-ν-α correlations. Comparison with available data.
doi: 10.1103/PhysRevLett.115.182501
2014BH05 Phys.Rev. C 89, 044912 (2014) P.P.Bhaduri, A.K.Chaudhuri, S.Chattopadhyay Parton shadowing and J\ψ-to-Drell-Yan ratio in nuclear collisions at energies available at the CERN SPS and the GSI FAIR
doi: 10.1103/PhysRevC.89.044912
2014GA20 Phys.Rev.Lett. 113, 082501 (2014) A.T.Gallant, M.Brodeur, C.Andreoiu, A.Bader, A.Chaudhuri, U.Chowdhury, A.Grossheim, R.Klawitter, A.A.Kwiatkowski, K.G.Leach, A.Lennarz, T.D.Macdonald, B.E.Schultz, J.Lassen, H.Heggen, S.Raeder, A.Teigelhofer, B.A.Brown, A.Magilligan, J.D.Holt, J.Menendez, J.Simonis, A.Schwenk, J.Dilling Breakdown of the Isobaric Multiplet Mass Equation for the A=20 and 21 Multiplets ATOMIC MASSES 20,21Mg; measured time-of-flight ion cyclotron resonance; deduced masses. Comparison with shell model calculations, AME2012 mass evaluation.
doi: 10.1103/PhysRevLett.113.082501
2014KW01 Hyperfine Interactions 225, 143 (2014) A.A.Kwiatkowski, C.Andreoiu, J.C.Bale, T.Brunner, A.Chaudhuri, U.Chowdhury, P.Delheij, S.Ettenauer, D.Frekers, A.T.Gallant, A.Grossheim, G.Gwinner, F.Jang, A.Lennarz, T.Ma, E.Mane, M.R.Pearson, B.E.Schultz, M.C.Simon, V.V.Simon, J.Dilling TITAN: An ion trap facility for on-line mass measurement experiments
doi: 10.1007/s10751-013-0892-8
2014KW04 Phys.Rev. C 89, 045502 (2014) A.A.Kwiatkowski, T.Brunner, J.D.Holt, A.Chaudhuri, U.Chowdhury, M.Eibach, J.Engel, A.T.Gallant, A.Grossheim, M.Horoi, A.Lennarz, T.D.Macdonald, M.R.Pearson, B.E.Schultz, M.C.Simon, R.A.Senkov, V.V.Simon, K.Zuber, J.Dilling New determination of double-β-decay properties on 48Ca High-precision Qββ-value measurement and improved nuclear matrix element calculations ATOMIC MASSES 48Ca, 48Ti; measured cyclotron-frequencies, resonances using TITAN system consisting of radio frequency quadrupole (RFQ) beam cooler and buncher, an electron beam ion trap (EBIT), and a Penning trap (MPET) at ISAC-TRIUMF facility; deduced Q value for double β decay of 48Ti. Comparison with previous measurements and atomic mass evaluations (AME-2003 and AME-2012). RADIOACTIVITY 48Ca(2β-); measured precise Q-value using TITAN system at ISAC-TRIUMF facility; calculated ββ nuclear matrix element by including effects of levels outside the valence space in a shell-model; discussed case for a new experiment on double-beta decay of 48Ca.
doi: 10.1103/PhysRevC.89.045502
2014LE02 Hyperfine Interactions 225, 157 (2014) A.Lennarz, T.Brunner, C.Andreoiu, A.Chaudhuri, U.Chowdhury, P.Delheij, J.Dilling, S.Ettenauer, D.Frekers, A.T.Gallant, A.Grossheim, F.Jang, A.A.Kwiatkowski, T.Ma, E.Mane, M.R.Pearson, B.E.Schultz, M.C.Simon, V.V.Simon Electron-capture branching ratio measurements of odd-odd intermediate nuclei in double-beta decay at the TITAN facility RADIOACTIVITY 116In(β-), (EC); measured decay products, Eγ, Iγ, X-rays; deduced isomers, energy levels, J, π. Comparison with available data.
doi: 10.1007/s10751-013-0893-7
2014LE20 Phys.Rev.Lett. 113, 082502 (2014) A.Lennarz, A.Grossheim, K.G.Leach, M.Alanssari, T.Brunner, A.Chaudhuri, U.Chowdhury, J.R.C.Lopez-Urrutia, A.T.Gallant, M.Holl, A.A.Kwiatkowski, J.Lassen, T.D.Macdonald, B.E.Schultz, S.Seeraji, M.C.Simon, C.Andreoiu, J.Dilling, D.Frekers In-Trap Spectroscopy of Charge-Bred Radioactive Ions RADIOACTIVITY 124In(β-), 124Cs(EC); measured decay products, Eγ, Iγ, X-rays; deduced isomer yields, T1/2, γ-ray energies, branching ratios. Electron-beam ion trap of the TITAN facility at TRIUMF.
doi: 10.1103/PhysRevLett.113.082502
2014MA21 Phys.Rev. C 89, 044318 (2014) T.D.Macdonald, B.E.Schultz, J.C.Bale, A.Chaudhuri, U.Chowdhury, D.Frekers, A.T.Gallant, A.Grossheim, A.A.Kwiatkowski, A.Lennarz, M.C.Simon, V.V.Simon, J.Dilling Precision Penning-trap measurement to investigate the role of the51Cr (e-, νe) 51V Q value in the gallium anomaly ATOMIC MASSES 51Cr, 51V; measured cyclotron-frequencies, TOF-ICR resonances using TITAN system consisting of radio frequency quadrupole (RFQ) beam cooler and buncher, an electron beam ion trap (EBIT), and a Penning trap (MPET) at ISAC-TRIUMF facility; deduced Q value for EC decay of 51Cr. Comparison with AME-2012 evaluation. Relevance to solar neutrino experiments SAGE and GALLEX. RADIOACTIVITY 51Cr(EC); measured precise Q(EC) value using TITAN system for precise mass measurements at ISAC-TRIUMF facility.
doi: 10.1103/PhysRevC.89.044318
2014SC09 Phys.Rev. C 90, 012501 (2014) B.E.Schultz, M.Brodeur, C.Andreoiu, A.Bader, A.Chaudhuri, U.Chowdhury, A.T.Gallant, A.Grossheim, R.Klawitter, A.A.Kwiatkowski, K.G.Leach, A.Lennarz, T.D.Macdonald, J.Lassen, H.Heggen, S.Raeder, A.Teigelhofer, J.Dilling Precision QEC-value measurement of 23Mg for testing the Cabibbo-Kobayashi-Maskawa matrix unitarity ATOMIC MASSES 23Mg; measured quadrupole and Ramsey resonances, frequency ratios of 23Mg+ to 23Na+ using TITAN Penning-trap mass spectrometer at ISAC-TRIUMF facility; deduced Q value for 23Mg decay. Comparison with AME-2012. RADIOACTIVITY 23Mg(EC)[from Si(p, X), E=480 MeV]; measured precise mass; deduced Q value, statistical rate function, ft value of mirror β transition. Comparison of Q value with AME-2012 evaluation. Test of the Cabibbo-Kobayashi-Maskawa matrix unitarity.
doi: 10.1103/PhysRevC.90.012501
2013BH12 Phys.Rev. C 88, 061902 (2013) P.P.Bhaduri, A.K.Chaudhuri, S.Chattopadhyay Charmonium suppression in a baryon-rich quark-gluon plasma
doi: 10.1103/PhysRevC.88.061902
2013CH16 Phys.Rev. C 87, 034907 (2013) A.K.Chaudhuri, Md.R.Haque, V.Roy, B.Mohanty Event-by-event hydrodynamical simulations for √ sNN=200 GeV Au + Au collisions and the correlation between flow coefficients and initial asymmetry measures
doi: 10.1103/PhysRevC.87.034907
2013CH17 Phys.Rev. C 87, 034908 (2013) Effect of charged particle multiplicity fluctuations on flow harmonics in event-by-event hydrodynamics
doi: 10.1103/PhysRevC.87.034908
2013CH49 Phys.Rev. C 88, 054317 (2013) A.Chaudhuri, C.Andreoiu, T.Brunner, U.Chowdhury, S.Ettenauer, A.T.Gallant, G.Gwinner, A.A.Kwiatkowski, A.Lennarz, D.Lunney, T.D.Macdonald, B.E.Schultz, M.C.Simon, V.V.Simon, J.Dilling Evidence for the extinction of the N=20 neutron-shell closure for 32Mg from direct mass measurements ATOMIC MASSES 29,30,31Na, 30,31,32,33,34Mg; measured Time-of-flight (TOF) ion-cyclotron resonances using TITAN Penning trap at ISAC-TRIUMF with respect to 16O and 39K references. Comparison with previous experimental data and with AME evaluations. Systematics of S(2n) values for N=18-24 Na and Mg isotopes; and experimental and theoretical neutron shell gap N=20, Z=10-22 nuclei. Discussed magicity of N=20 shell closure.
doi: 10.1103/PhysRevC.88.054317
2013FR13 Phys.Lett. B 722, 233 (2013) D.Frekers, M.C.Simon, C.Andreoiu, J.C.Bale, M.Brodeur, T.Brunner, A.Chaudhuri, U.Chowdhury, J.R.C.Lopez-Urrutia, P.Delheij, H.Ejiri, S.Ettenauer, A.T.Gallant, V.Gavrin, A.Grossheim, M.N.Harakeh, F.Jang, A.A.Kwiatkowski, J.Lassen, A.Lennarz, M.Luichtl, T.Ma, T.D.Macdonald, E.Mane, D.Robertson, B.E.Schultz, V.V.Simon, A.Teigelhofer, J.Dilling Penning-trap Q-value determination of the 71Ga(ν, e-)71Ge reaction using threshold charge breeding of on-line produced isotopes ATOMIC MASSES 71Ga, 71Ge; measured TOF, TOF-ICR, ion cyclotron resonance spectra; deduced Q-value and its uncertainty. TITAN Penning trap at ISAC/TRIUMF, comparison with AME data.
doi: 10.1016/j.physletb.2013.04.019
2013KW01 Ann.Phys.(Leipzig) 525, 529 (2013) A.A.Kwiatkowski, A.Chaudhuri, U.Chowdhury, A.T.Gallant, T.D.Macdonald, B.E.Schultz, M.C.Simon, J.Dilling Mass measurements of singly and highly charged radioactive ions at TITAN: A new QEC-value measurement of 10C NUCLEAR REACTIONS Ni, O(p, X)10C/10B, E=500 MeV; measured reaction products; deduced yields. ATOMIC MASSES 10C, 10B, 74Rb; measured cyclotron frequency ratio; deduced Q-value. Comparison with available data.
doi: 10.1002/andp.201300039
2013LI12 Phys.Rev.Lett. 110, 092502 (2013) G.Li, R.Segel, N.D.Scielzo, P.F.Bertone, F.Buchinger, S.Caldwell, A.Chaudhuri, J.A.Clark, J.E.Crawford, C.M.Deibel, J.Fallis, S.Gulick, G.Gwinner, D.Lascar, A.F.Levand, M.Pedretti, G.Savard, K.S.Sharma, M.G.Sternberg, T.Sun, J.Van Schelt, R.M.Yee, B.J.Zabransky Tensor Interaction Limit Derived From the α-β-ν(bar) Correlation in Trapped 8Li Ions RADIOACTIVITY 8Li(β-) [from 7Li(d, p), E=24 MeV]; measured decay products, Eα, Iα; deduced α-β-ν correlation in the Gamow-Teller decay, limit on tensor component contribution.
doi: 10.1103/PhysRevLett.110.092502
2013VA12 Phys.Rev.Lett. 111, 061102 (2013) J.Van Schelt, D.Lascar, G.Savard, J.A.Clark, P.F.Bertone, S.Caldwell, A.Chaudhuri, A.F.Levand, G.Li, G.E.Morgan, R.Orford, R.E.Segel, K.S.Sharma, M.G.Sternberg First Results from the CARIBU Facility: Mass Measurements on the r-Process Path ATOMIC MASSES 130,131In, 130,131,132,133,134,135Sn, 131,132,133,134,135,136,137Sb, 133,135,136,137,138,139,140Te, 133,134,135,139,140,141I, 142,143,144,145,146Cs; measured TOF ion cyclotron resonances, cyclotron frequency; deduced mass excess. Comparison with theoretical calculations.
doi: 10.1103/PhysRevLett.111.061102
2012BH07 Phys.Rev. C 85, 064911 (2012) P.P.Bhaduri, A.K.Chaudhuri, S.Chattopadhyay J/ψ suppression in a dense baryonic medium
doi: 10.1103/PhysRevC.85.064911
2012GA29 Phys.Rev.Lett. 109, 032506 (2012) A.T.Gallant, J.C.Bale, T.Brunner, U.Chowdhury, S.Ettenauer, A.Lennarz, D.Robertson, V.V.Simon, A.Chaudhuri, J.D.Holt, A.A.Kwiatkowski, E.Mane, J.Menendez, B.E.Schultz, M.C.Simon, C.Andreoiu, P.Delheij, M.R.Pearson, H.Savajols, A.Schwenk, J.Dilling New Precision Mass Measurements of Neutron-Rich Calcium and Potassium Isotopes and Three-Nucleon Forces ATOMIC MASSES 51,52Ca, 51K; measured TOF-ICR resonances, average frequency ratios; deduced masses. Comparison with available data. TRIUMF TITAN trap, comparison with available data, KB3G and GXPF1A effective interactions.
doi: 10.1103/PhysRevLett.109.032506
2012HA33 Phys.Rev. C 86, 037901 (2012) Md.R.Haque, V.Roy, A.K.Chaudhuri Fluctuating initial conditions and smoothing effect on elliptic and triangular flow
doi: 10.1103/PhysRevC.86.037901
2012MO07 Phys.Rev. C 85, 031903 (2012) P.Mohanty, V.Roy, S.Ghosh, S.Das, B.Mohanty, S.Sarkar, J.-e.Alam, A.Chaudhuri Elliptic flow of thermal dileptons as a probe of QCD matter
doi: 10.1103/PhysRevC.85.031903
2012RO06 Phys.Rev. C 85, 024909 (2012), Erratum Phys.Rev. C 85, 049902 (2012) 2 + 1 dimensional hydrodynamics including bulk viscosity: A systematic study
doi: 10.1103/PhysRevC.85.024909
2012RO18 Phys.Rev. C 86, 014902 (2012) V.Roy, A.K.Chaudhuri, B.Mohanty Comparison of results from a (2+1)-D relativistic viscous hydrodynamic model to elliptic and hexadecapole flow of charged hadrons measured in Au-Au collisions at √ sNN = 200 GeV
doi: 10.1103/PhysRevC.86.014902
2012VA02 Phys.Rev. C 85, 045805 (2012) J.Van Schelt, D.Lascar, G.Savard, J.A.Clark, S.Caldwell, A.Chaudhuri, J.Fallis, J.P.Greene, A.F.Levand, G.Li, K.S.Sharma, M.G.Sternberg, T.Sun, B.J.Zabransky Mass measurements near the r-process path using the Canadian Penning Trap mass spectrometer ATOMIC MASSES 133,134Sb, 134,135,136,137Te, 135,136,137,138,139I, 137,138,139,140,141Xe, 141,142Cs, 153,155Pr, 153,155,157Nd, 153,155,156,157,158,159Pm, 155,157,158,159,160,161Sm, 158,159,160,161Eu, 163Gd; measured cyclotron frequency ratios; deduced mass excess, atomic masses. Canadian Penning Trap mass spectrometer at ANL. Comparison with AME-2003 evaluation and theoretical mass models. Systematics of S(2n) values.
doi: 10.1103/PhysRevC.85.045805
2011BH12 Phys.Rev. C 84, 054914 (2011) P.P.Bhaduri, A.K.Chaudhuri, S.Chattopadhyay J/ψ production in proton-induced collisions at energies available at the GSI Facility for Antiproton and Ion Research
doi: 10.1103/PhysRevC.84.054914
2011CH14 Phys.Rev. C 83, 034905 (2011) Direct photon production from viscous quark-gluon plasma
doi: 10.1103/PhysRevC.83.034905
2011CH28 Nucl.Phys. A862-863, 180c (2011) Causal dissipative hydrodynamics for heavy ion collisions
doi: 10.1016/j.nuclphysa.2011.05.038
2011CH37 Phys.Rev. C 84, 027902 (2011) Hydrodynamical analysis of centrality dependence of charged particle multiplicity in √ sNN = 2.76 Tev Pb + Pb collisions
doi: 10.1103/PhysRevC.84.027902
2011CH66 J.Phys.:Conf.Ser. 312, 042009 (2011) A.Chaudhuri, P.F.Bertone, F.Buchinger, S.Caldwell, J.A.Clark, J.E.Crawford, C.M.Deibel, S.Gulick, D.Lascar, A.F.Levand, G.Li, G.Savard, R.E.Segel, K.S.Sharma, M.G.Sternberg, T.Sun, J.Van Schelt Studies of neutron-rich nuclei using the CPT mass spectrometer at CARIBU
doi: 10.1088/1742-6596/312/4/042009
2011ET01 Phys.Rev.Lett. 107, 272501 (2011) S.Ettenauer, M.C.Simon, A.T.Gallant, T.Brunner, U.Chowdhury, V.V.Simon, M.Brodeur, A.Chaudhuri, E.Mane, C.Andreoiu, G.Audi, J.R.C.Lopez-Urrutia, P.Delheij, G.Gwinner, A.Lapierre, D.Lunney, M.R.Pearson, R.Ringle, J.Ullrich, J.Dilling First Use of High Charge States for Mass Measurements of Short-Lived Nuclides in a Penning Trap ATOMIC MASSES 74,75,76Rb, 74Ga; measured TOF ion-cyclotron resonances; deduced masses. Penning trap measurements, comparison with mass evaluation.
doi: 10.1103/PhysRevLett.107.272501
2011FA10 Phys.Rev. C 84, 045807 (2011) J.Fallis, J.A.Clark, K.S.Sharma, G.Savard, F.Buchinger, S.Caldwell, A.Chaudhuri, J.E.Crawford, C.M.Deibel, S.Gulick, A.A.Hecht, D.Lascar, J.K.P.Lee, A.F.Levand, G.Li, B.F.Lundgren, A.Parikh, S.Russell, M.Scholte-van de Vorst, N.D.Scielzo, R.E.Segel, H.Sharma, S.Sinha, M.G.Sternberg, T.Sun, I.Tanihata, J.Van Schelt, J.C.Wang, Y.Wang, C.Wrede, Z.Zhou Mass measurements of isotopes of Nb, Mo, Tc, Ru, and Rh along the Νp- and rp-process paths using the Canadian Penning trap mass spectrometer ATOMIC MASSES 87Nb, 87,90,91,92Mo, 90,91,92,93Tc, 90,91,92,93,94Ru, 92,93,94,95Rh; measured cyclotron frequency ratios using Canadian Penning trap mass spectrometer; deduced mass excesses. 88Tc; deduced S(p). Comparison with previous measurements and AME-2003. Z=42-47, A=87-96; analyzed systematics of S(2p) values. Z=42-45, N=45-52; analyzed systematics of S(2n) values. Z=42-45, A=87-95; analyzed systematics of S(p) values. 94mAg; discussed 2p decay mode of 21+ isomer. NUCLEAR REACTIONS 58Ni(40Ca, X)87Nb/87Mo/90Mo/92Mo/90Tc/90Tc/92Tc/93Tc/90Ru/91Ru/92Ru/93Ru/92Rh/93Rh/94Rh, E=185, 190, 200 MeV; 58Ni(36Ar, X)91Tc/91Ru, E=125 MeV; Ni(36Ar, X)90Mo/91Mo/90Tc/91Tc/92Tc/91Ru/92Ru, E=130, 150 MeV; Ni(40Ca, X)93Tc/93Ru/94Ru/94Rh/95Rh, E=170 MeV; measured yields at ATLAS facility.
doi: 10.1103/PhysRevC.84.045807
2010CH09 Phys.Rev. C 81, 044905 (2010) Initial eccentricity and constituent quark number scaling of elliptic flow in ideal and viscous dynamics
doi: 10.1103/PhysRevC.81.044905
2010CH47 Phys.Rev. C 82, 047901 (2010) Knudsen number, ideal hydrodynamic limit for elliptic flow, and QGP viscosity in √ sNN=62 and 200 GeV Cu+Cu/Au+Au collisions
doi: 10.1103/PhysRevC.82.047901
2010PR09 Phys.Rev. C 82, 024909 (2010) S.K.Prasad, V.Roy, S.Chattopadhyay, A.K.Chaudhuri Elliptic flow (v2) in pp collisions at energies available at the CERN Large Hadron Collider: A hydrodynamical approach
doi: 10.1103/PhysRevC.82.024909
2010RO02 J.Phys.(London) G37, 035105 (2010) Equation of state dependence of Mach cone-like structures in Au+Au collisions
doi: 10.1088/0954-3899/37/3/035105
2010RO21 Phys.Rev. C 81, 067901 (2010) Transverse momentum spectra and elliptic flow in ideal hydrodynamics and geometric scaling
doi: 10.1103/PhysRevC.81.067901
2010RO26 Phys.Rev. C 82, 031901 (2010) Hadronic resonance gas, pT spectra of charged particles, and elliptic flow in √ s=200 GeV Au+Au collisions
doi: 10.1103/PhysRevC.82.031901
2009CH48 Phys.Rev. C 80, 047901 (2009) Hydrodynamical model for J/ψ suppression and elliptic flow
doi: 10.1103/PhysRevC.80.047901
2008CH09 Phys.Rev. C 77, 027901 (2008) Di-jet hadron pair correlation in a hydrodynamical model with jet quenching
doi: 10.1103/PhysRevC.77.027901
2008RA03 Phys.Rev.Lett. 100, 012501 (2008) C.Rauth, D.Ackermann, K.Blaum, M.Block, A.Chaudhuri, Z.Di, S.Eliseev, R.Ferrer, D.Habs, F.Herfurth, F.P.Hessberger, S.Hofmann, H.-J.Kluge, G.Maero, A.Martin, G.Marx, M.Mukherjee, J.B.Neumayr, W.R.Plass, S.Rahaman, D.Rodriguez, C.Scheidenberger, L.Schweikhard, P.G.Thirolf, G.Vorobjev, C.Weber First Penning Trap Mass Measurements beyond the Proton Drip Line ATOMIC MASSES 144,145,146,147Ho, 147,148Tm; measured masses using the SHIPTRAP penning trap mass spectrometer.
doi: 10.1103/PhysRevLett.100.012501
2008WE10 Phys.Rev. C 78, 054310 (2008) C.Weber, V.-V.Elomaa, R.Ferrer, C.Frohlich, D.Ackermann, J.Aysto, G.Audi, L.Batist, K.Blaum, M.Block, A.Chaudhuri, M.Dworschak, S.Eliseev, T.Eronen, U.Hager, J.Hakala, F.Herfurth, F.P.Hessberger, S.Hofmann, A.Jokinen, A.Kankainen, H.-J.Kluge, K.Langanke, A.Martin, G.Martinez-Pinedo, M.Mazzocco, I.D.Moore, J.B.Neumayr, Yu.N.Novikov, H.Penttila, W.R.Plass, A.V.Popov, S.Rahaman, T.Rauscher, C.Rauth, J.Rissanen, D.Rodriguez, A.Saastamoinen, C.Scheidenberger, L.Schweikhard, D.M.Seliverstov, T.Sonoda, F.-K.Thielemann, P.G.Thirolf, G.K.Vorobjev Mass measurements in the vicinity of the r p-process and the ν p-process paths with the Penning trap facilities JYFLTRAP and SHIPTRAP ATOMIC MASSES 84Y, 87Zr, 88,89Mo, 88,89,90,91,92Tc, 90,91,92,93Ru, 92,93,94,95Rh, 94,95,95m,96Pd; measured masses. Comparison with evaluated data.
doi: 10.1103/PhysRevC.78.054310
2007BL16 Eur.Phys.J. D 45, 39 (2007) M.Block, D.Ackermann, K.Blaum, A.Chaudhuri, Z.Di, S.Eliseev, R.Ferrer, D.Habs, F.Herfurth, F.P.Hessberger, S.Hofmann, H.-J.Kluge, G.Maero, A.Martin, G.Marx, M.Mazzocco, M.Mukherjee, J.B.Neumayr, W.R.Plass, W.Quint, S.Rahaman, C.Rauth, D.Rodriguez, C.Scheidenberger, L.Schweikhard, P.G.Thirolf, G.Vorobjev, C.Weber Towards direct mass measurements of nobelium at SHIPTRAP
doi: 10.1140/epjd/e2007-00189-2
2007CH35 Phys.Rev. C 75, 044902 (2007) J/ψ production in Au+Au and Cu+Cu collisions at √ sNN = 200 GeV and the threshold model NUCLEAR REACTIONS Cu(Cu, X), Au(Au, X), E(cm)=200 GeV/nucleon; analyzed J/ψ yields, supression, nuclear modification factor. Threshold model.
doi: 10.1103/PhysRevC.75.044902
2007CH45 Phys.Rev. C 75, 057902 (2007) Conical flow due to partonic jets in central Au+Au collisions
doi: 10.1103/PhysRevC.75.057902
2007CH65 Eur.Phys.J. D 45, 47 (2007) A.Chaudhuri, M.Block, S.Eliseev, R.Ferrer, F.Herfurth, A.Martin, G.Marx, M.Mukherjee, C.Rauth, L.Schweikhard, G.Vorobjev Carbon-cluster mass calibration at SHIPTRAP
doi: 10.1140/epjd/e2007-00001-5
2007CH84 J.Phys.(London) G34, S689 (2007) Effect of jet quenching on hydrodynamical evolution of QGP
doi: 10.1088/0954-3899/34/8/S74
2007MA92 Eur.Phys.J. A 34, 341 (2007) A.Martin, D.Ackermann, G.Audi, K.Blaum, M.Block, A.Chaudhuri, Z.Di, S.Eliseev, R.Ferrer, D.Habs, F.Herfurth, F.P.Hessberger, S.Hofmann, H.-J.Kluge, M.Mazzocco, M.Mukherjee, J.B.Neumayr, Yu.Novikov, W.Plass, S.Rahaman, C.Rauth, D.Rodriguez, C.Scheidenberger, L.Schweikhard, P.G.Thirolf, G.Vorobjev, C.Weber Mass measurements of neutron-deficient radionuclides near the end-point of the rp-process with SHIPTRAP ATOMIC MASSES 99,101,103Ag, 101,102,103,104Cd, 102,103,104,105In, 105,106Sn, 107,109,111Sb, 109,110,111,112Te, 111,112,113I, 113Xe; measured and evaluated masses using the SHIPTRAP Penning trap mass spectrometer. 104Sn, 105Sb, 108Te, 109I, 112Xe, 113Cs; evaluated masses. NUCLEAR STRUCTURE 102,103,104,105In, 104,105,106Sn, 105,106,107Sb, 109I; deduced proton separation energies from mass measurements using the SHIPTRAP facility.
doi: 10.1140/epja/i2007-10520-5
2007RA37 Eur.Phys.J. Special Topics 150, 329 (2007) C.Rauth, D.Ackermann, G.Audi, M.Block, A.Chaudhuri, S.Eliseev, F.Herfurth, F.P.Hessberger, S.Hofmann, H.-J.Kluge, A.Martin, G.Marx, M.Mukherjee, J.B.Neumayr, W.R.Plass, S.Rahaman, D.Rodriguez, L.Schweikhard, P.G.Thirolf, G.Vorobjev, C.Weber Direct mass measurements around A=146 at SHIPTRAP ATOMIC MASSES 143,147Tb, 143,144,145,146,147,148Dy, 144,145,146,147,148Ho, 146,147,148Er, 147,148Tm; measured masses using the SHIPTRAP penning trap mass spectrometer. Compared results to previous results.
doi: 10.1140/epjst/e2007-00339-8
2006CH03 J.Phys.(London) G32, 229 (2006) Can J/ψ suppression and pT broadening signal the deconfinement transition at RHIC? NUCLEAR REACTIONS Pb(Pb, X), E=158 GeV/nucleon; analyzed J/ψ suppression, related data. Comparison of QCD-based nuclear absorption model to quark-gluon plasma threshold model.
doi: 10.1088/0954-3899/32/2/013
2006CH35 Phys.Rev.Lett. 97, 062301 (2006) Effects of Jet Quenching on the Hydrodynamical Evolution of Quark-Gluon Plasma
doi: 10.1103/PhysRevLett.97.062301
2006CH47 Phys.Rev. C 74, 044904 (2006) Dissipative hydrodynamics in 2 + 1 dimensions
doi: 10.1103/PhysRevC.74.044904
2006CH48 Phys.Rev. C 74, 044907 (2006) J/ψ production in Au+Au collisions at √ sNN = 200 GeV and the nuclear absorption NUCLEAR REACTIONS Cu(Cu, X), 197Au(197Au, X), E(cm)=200 GeV/nucleon; analyzed centrality dependence of J/ψ supression. QCD-based nuclear absorption model.
doi: 10.1103/PhysRevC.74.044907
2006HE11 Phys.Rev. C 73, 034904 (2006) U.Heinz, H.Song, A.K.Chaudhuri Dissipative hydrodynamics for viscous relativistic fluids
doi: 10.1103/PhysRevC.73.034904
2006RA38 Int.J. Mass Spectrom. 251, 146 (2006) S.Rahaman, M.Block, D.Ackermann, D.Beck, A.Chaudhuri, S.Eliseev, H.Geissel, D.Habs, F.Herfurth, F.P.Hessberger, S.Hofmann, G.Marx, M.Mukherjee, J.B.Neumayr, M.Petrick, W.R.Plass, W.Quint, C.Rauth, D.Rodriguez, C.Scheidenberger, L.Schweikhard, P.G.Thirolf, C.Weber On-line commissioning of SHIPTRAP ATOMIC MASSES 147,148Er, 147Ho; measured masses and time of flight using the Penning-trap mass spectrometer SHIPTRAP. Nuclides produced at SHIP facility.
doi: 10.1016/j.ijms.2006.01.049
2004CH15 Nucl.Phys. A734, 53 (2004) Nuclear absorption and anomalous J/ψ suppression in Pb + Pb collisions NUCLEAR REACTIONS Pb(Pb, X), U(S, X), E=high; calculated J/ψ and ψ' suppression vs centrality. QCD-based absorption model. Comparison with data.
doi: 10.1016/j.nuclphysa.2004.01.010
2003CH06 J.Phys.(London) G29, 235 (2003) Single photons from Pb + Pb collisions at CERN SPS: quark-gluon plasma versus hadronic gas NUCLEAR REACTIONS Pb(Pb, X), E=158 GeV/nucleon; analyzed photon data. Comparison of quark-gluon plasma and hot hadronic gas scenarios.
doi: 10.1088/0954-3899/29/2/301
2003CH39 Phys.Rev. C 68, 014906 (2003) Nuclear absorption of charmoniums in pA and AA collisions NUCLEAR REACTIONS 1,2H(p, X), U(S, X), Pb(Pb, X), E=high; analyzed J/ψ production σ, transverse energy; deduced parameter. Nuclear absorption model.
doi: 10.1103/PhysRevC.68.014906
2003CH43 Phys.Rev. C 68, 024906 (2003) J/ψ suppression in Pb+Pb collisions and pT broadening NUCLEAR REACTIONS U(S, X), Pb(Pb, X), E=high; analyzed J/ψ yields, transverse momentum, centrality dependence. Threshold and absorption models compared.
doi: 10.1103/PhysRevC.68.024906
2003CH51 Phys.Rev. C 68, 037901 (2003) Threshold model and the latest data on J/ψ suppression in Pb + Pb collisions NUCLEAR REACTIONS U(S, X), E at 200 GeV/c; Pb(Pb, X), E at 158 GeV/c; analyzed J/ψ yields, transverse energy. Threshold model.
doi: 10.1103/PhysRevC.68.037901
2002CH02 Phys.Rev. C65, 014905 (2002) Disoriented Chiral Condensate in the Presence of Dissipation and Noise
doi: 10.1103/PhysRevC.65.014905
2002CH06 Phys.Rev. C65, 024906 (2002) θ Vacua States in Heavy Ion Collisions in the Presence of Dissipation and Noise
doi: 10.1103/PhysRevC.65.024906
2002CH07 Phys.Lett. 527B, 80 (2002) Transverse Energy Dependence of J/Psi Suppression in Au + Au Collisions at RHIC Energy NUCLEAR REACTIONS Pb(Pb, X), 197Au(197Au, X), E=high; calculated transverse energy distributions, J/ψ to Drell-Yan ratios; deduced role of hard processes.
doi: 10.1016/S0370-2693(02)01163-2
2002CH24 Phys.Rev.Lett. 88, 232302 (2002) J/ψ Suppression in Pb + Pb Collisions: A conventional description NUCLEAR REACTIONS Pb(Pb, X), 197Au(197Au, X), E=high; calculated J/ψ production σ, suppression features. Comparisons with data.
doi: 10.1103/PhysRevLett.88.232302
2002CH46 Phys.Rev. C66, 021902 (2002) Nuclear absorption and J/ψ suppression in Pb+Pb collisions NUCLEAR REACTIONS 1,2H, C, Al, Cu, W(p, X), Cu, U(O, X), U(S, X), Pb(Pb, X), E=high; analyzed J/ψ production σ, related data; deduced parameters. Pb(Pb, X), E=high; calculated J/ψ transverse energy; deduced supression mechanism features.
doi: 10.1103/PhysRevC.66.021902
2001CH08 J.Phys.(London) G27, 175 (2001) Dissipation, Noise and DCC Domain Formation
doi: 10.1088/0954-3899/27/2/303
2001CH72 Phys.Rev. C64, 054902 (2001) Possible Θ Vacua States in Heavy Ion Collisions
doi: 10.1103/PhysRevC.64.054902
2001CH73 Phys.Rev. C64, 054903 (2001) Transverse Energy Distributions and J/ψ Production in Pb + Pb Collisions NUCLEAR REACTIONS Pb(Pb, X), E=158 GeV/nucleon; analyzed J/ψ suppression, transverse energy distributions; deduced threshold density.
doi: 10.1103/PhysRevC.64.054903
2001CH76 Phys.Rev. C64, 057901 (2001) Enhancement of Gluonic Dissociation of J/ψ in Viscous Quark-Gluon Plasma
doi: 10.1103/PhysRevC.64.057901
2000CH03 Phys.Scr. 61, 311 (2000) Effect of Viscosity on One Dimensional Hydrodynamic Flow and Direct Photons from 200 AGeV S + Au Collisions at CERN SPS NUCLEAR REACTIONS 197Au(S, X), E=200 GeV/nucleon; analyzed direct photon yields; deduced effect of viscosity. Hydrodynamical model, quark-gluon plasma and hot hadronic gas scenarios considered.
doi: 10.1238/Physica.Regular.061a00311
2000CH33 J.Phys.(London) G26, 1433 (2000) Chemical Equilibration in a Viscous Quark-Gluon Plasma and Electromagnetic Signals
doi: 10.1088/0954-3899/26/9/312
1999CH11 Phys.Rev. D59, 117503 (1999) Effect of Friction on Disoriented Chiral Condensate Formation
doi: 10.1103/PhysRevD.59.117503
1995CH26 Phys.Rev. C51, R2889 (1995) Thermal Photons from S + Au Collisions at 200A GeV: A hadron gas picture NUCLEAR REACTIONS 197Au(S, X), E=200 GeV/nucleon; analyzed photon spectra; deduced thermalization time dependence. Hot hadronic gas model.
doi: 10.1103/PhysRevC.51.R2889
1994CH07 Phys.Rev. C49, 1603 (1994) Density Distribution of 11Li and Proton Elastic Scattering from 9Li and 11Li NUCLEAR REACTIONS 9Li(p, p), E=60 MeV; 11Li(p, p), E=62 MeV; analyzed σ(θ). Folding model, p-nucleus optical potential from Glauber model fits to reaction σ, core plus valence nucleons model. NUCLEAR STRUCTURE 11Li; calculated density distribution. Core plus valence nucleons model.
doi: 10.1103/PhysRevC.49.1603
1988CH28 Nucl.Phys. A485, 181 (1988) A.K.Chaudhuri, S.Bhattacharya, K.Krishan Nucleon Transfer Contribution to the Absorptive Heavy Ion Potential by the Monte Carlo Simulation Method NUCLEAR REACTIONS 40Ca(16O, X), E=55.6-214.1 MeV; 58Ni(16O, X), E=45-81 MeV; 208Pb(16O, X), E=129-312.6 MeV; 28Si(16O, X), E=36-81 MeV; 88Sr(16O, X), E=59 MeV; 40Ca(40Ca, X), E=143.6-240 MeV; 40Ca(20Ne, X), E=151 MeV; 209Bi(136Xe, X), E=940, 1130 MeV; calculated potential parameters, nucleon transfer contribution to imaginary term. Monte-Carlo simulation.
doi: 10.1016/0375-9474(88)90529-5
1986CH03 Nucl.Phys. A449, 243 (1986) A Density-Dependent Interaction in the Folded Alpha-Nucleus Potential NUCLEAR REACTIONS 50Ti, 52Cr(α, α), E=104 MeV; 40Ca(α, α), E=141.7 MeV; 58Ni(α, α), E=172.5 MeV; 208Pb(α, α), E=140 MeV; analyzed σ(θ); deduced folding potential parameters. Density-dependent interactions.
doi: 10.1016/0375-9474(86)90004-7
1986CH20 Nucl.Phys. A455, 169 (1986) A Microscopic Optical Model Analysis of Heavy Ion Elastic Scattering Data using the Realistic NN Interaction NUCLEAR REACTIONS 208Pb(16O, 16O), E=216.6, 312.6 MeV; 40Ca(12C, 12C), E=51 MeV; 60Ni(16O, 16O), E=61.16 MeV; 28Si(16O, 16O), E=50, 55 MeV; calculated σ(θ); deduced potential parameters, normalizations. Microscopic optical model.
doi: 10.1016/0375-9474(86)90350-7
1986CH38 Nucl.Phys. A459, 417 (1986) A Factorized Density-Dependent Interaction in the Folding Model for Heavy-Ion Potentials NUCLEAR REACTIONS 90Zr(12C, 12C), E=98 MeV; 40Ca(12C, 12C), E=51 MeV; 208Pb(12C, 12C), E=96 MeV; 60Ni(16O, 16O), E=61.42 MeV; 208Pb(16O, 16O), E=90-192 MeV; calculated σ(θ); deduced model parameters. Folding approximation, density-dependent interactions. NUCLEAR STRUCTURE 12C, 16O, 28Si, 40Ar, 40Ca, 60Ni, 90Zr, 120Sn, 208Pb; calculated Fermi model density distribution parameters.
doi: 10.1016/0375-9474(86)90142-9
1985CH19 Nucl.Phys. A439, 415 (1985) A.K.Chaudhuri, D.N.Basu, B.Sinha An α-Nucleus Optical Potential using a Realistic Effective Interaction NUCLEAR REACTIONS 58Ni(α, α), E=172.5 MeV; 40Ca(α, α), E=141.7 MeV; 52Cr, 50Ti(α, α), E=104 MeV; 208Pb(α, α), E=140 MeV; calculated σ(θ), α-nucleus potential. Realistic effective interactions.
doi: 10.1016/0375-9474(85)90419-1
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