Volume 177, Numbers 1-2, July 2007

• 
  James R. Chelikowsky, Murilo L. Tiago, Yousef Saad, Yunkai Zhou: Algorithms for the evolution of electronic properties in nanocrystals. 1-5

• 
  Jürgen Hafner: Materials simulations using VASP - a quantum perspective to materials science. 6-13
• 
  Michael J. Gillan, David R. Bowler, Antonio S. Torralba, Tsuyoshi Miyazaki: Order-N first-principles calculations with the conquest code. 14-18
• 
  Joan Adler, J. Fox, Rafi Kalish, T. Mutat, Anastassia Sorkin, E. Warszarski: The essential role of visualization for modeling nanotubes and nanodiamond. 19-20

• 
  Agata Kranjc, Claudio Anselmi, Paolo Carloni, Frank E. Blaney: Structural models of human big conductance calcium- and voltage-gated potassium channels. 21-26
• 
  Francesco Luigi Gervasio: Charge transfer mechanism in a PolydGpdCp fiber and in wet DNA. 27-29

• 
  Yong-Ju Kang, Joongoo Kang, Yong-Hoon Kim, Kee Joo Chang: First-principles approach to the electron transport and applications for devices based on carbon nanotubes and ultrathin oxides. 30-33
• 
  Alexey Y. Kuksin, Genri E. Norman, Vladimir V. Stegailov, Alexey Yanilkin: Surface melting of superheated crystals. Atomistic simulation study. 34-37
• 
  Yoong-Kee Choe, Eiji Tsuchida, Tamio Ikeshoji: Electrical property of a sulfuric acid-water mixture from the first-principles molecular dynamics simulation. 38-39

• 
  Sul-Ah Ahn, Myoung Won Cho: Exact and fast calculation for two-dimensional correlated electron systems: application to the Hubbard model. 40
• 
  Timur T. Bazhirov, Genri E. Norman, Vladimir V. Stegailov: Cavitation in liquid Pb and Li under negative pressures. 41
• 
  Yong-Sung Kim: Asymmetric-dimer-symmetric-dimer mixed phase on tensile-strained Si(001) surface. 42
• 
  Y. Kubota, K. Nobusada: An efficient numerical method for exciton states in quantum boxes. 43
• 
  Geunsik Lee, Jai Sam Kim: Adsorption energies of Al, Ga, In, Tl on Si(111)-7×7. 44
• 
  Jon K. Nilsen: Python in scientific computing: Applications to Bose-Einstein condensates. 45
• 
  Yongjin Park, Rob J. W. E. Lahaye, Young Hee Lee: Adsorption of Pt on defective carbon nanotube walls: a DFT approach. 46
• 
  K. Shiratori, K. Nobusada: Electronic structure calculations at constant chemical potential toward the application to electrochemistry. 47
• 
  Alexey Y. Kuksin, Genri E. Norman, Vladimir V. Stegailov, Alexey Yanilkin: Atomistic simulations of structure transitions and fracture in Fe and Al single crystals. 48
• 
  Younsuk Yun, Sang Chul Kwon, Whung Whoe Kim: Ab initio study of planar faults in bcc Fe and Mo. 49
• 
  Oleg Efimov, Young-Gui Yoon, Seung-Hoon Jhi: Carcinogenic activity of polycyclic aromatic hydrocarbons in first-principles. 50
• 
  Keiji Hayashi, Noriyoshi Omote, Daisuke Tanaka: Molecular dynamics study of atomistic mechanisms of wearless friction determining threshold sliding velocity. 51
• 
  Geunjung Lee, Jinwoo Jeong, Young-Gui Yoon: Comparison of trajectory based methods to find transition states. 52-53
• 
  Katsuyuki Nobusada, Kazuhiro Yabana: Electric currents in ring-shaped molecules induced by circularly polarized laser pulses. 54

• 
  A. Bécoulet, Per Strand, H. Wilson, M. Romanelli, Lars-Goran Eriksson: The way towards thermonuclear fusion simulators. 55-59

• 
  E. Lefebvre, E. d'Humières, L. Gremillet, S. Fritzler, V. Malka: Numerical modeling and applications of laser-accelerated ion beams. 60-63
• 
  T. Makabe, T. Shimada, T. Yagisawa: Plasma etching and feature evolution of organic low-k material by using VicAddress. 64-67
• 
  Min Sup Hur, Hyyong Suk: New envelope-kinetic scheme for the simulation of Raman backward laser amplification. 68-69
• 
  S. S. Kim, S. W. Yoon: Transport simulations for the scrape-off layer and divertor plasmas in KSTAR tokamak. 70-71

• 
  F. Iza, J. K. Lee: Low-pressure plasma generation inside slender tubes. 72-75
• 
  Xi-Wei Hu, Zhong-He Jiang, Shu Zhang, Minghai Liu: The propagation of a microwave in an atmospheric pressure plasma layer: one- and two-dimensional numerical solutions. 76-77
• 
  François Rogier, Jean-Charles Matéo-Vélez, Géraldine Quinio: Numerical modeling of DC discharges in air flows. 78-79

• 
  S. Kuhn, D. D. Tskhakaya, D. Tskhakaya Jr.: The magnetized plasma-wall transition (PWT) and its relation to fluid boundary conditions. 80-83
• 
  Y. Miyagawa, M. Ikeyama, S. Miyagawa, M. Tanaka, H. Nakadate: Plasma analysis for the plasma immersion ion implantation processing by a PIC-MCC simulation. 84-87
• 
  M. M. Turner, P. Chabert: Modelling of dual-frequency capacitive discharges. 88-92
• 
  Jongsoo Yoo, Tongnyeol Rhee, Chang-Mo Ryu: 1D PIC simulation study of nonlinear beam plasma interaction. 93-94

• 
  Viktor K. Decyk: UPIC: A framework for massively parallel particle-in-cell codes. 95-97
• 
  Jong-Shinn Wu, K.-H. Hsu, F.-L. Li, Chieh-Tsan Hung, S.-Y. Jou: Development of a parallelized 3D electrostatic PIC-FEM code and its applications. 98-101
• 
  Savino Longo: Kinetic simulation of neutral and weakly ionized gases. 102-105
• 
  Hae June Lee, Hyun Jin Yoon, Jae Koo Lee: Simulation of photons from plasmas for the applications to display devices. 106-107
• 
  Satoshi Hamaguchi, Masashi Yamashiro, Hideaki Yamada: Atomic-level simulation of non-equilibrium surface chemical reactions under plasma-wall interaction. 108-109

• 
  K. Ostrikov, I. Levchenko, S. Xu: Computational plasma nanoscience: Where plasma physics meets surface science. 110-113
• 
  S. W. Chau, K. L. Hsu, D. L. Lin, J. S. Chen, C. C. Tzeng: Modeling and experimental validation of a 1.2 MW DC transferred well-type plasma torch. 114-117
• 
  H. C. Kim, John P. Verboncoeur: Reflection, absorption and transmission of TE electromagnetic waves propagation in a nonuniform plasma slab. 118-121
• 
  Y. J. Hong, H. S. Ko, G. Y. Park, J. K. Lee: Kinetic plasma simulations for three dielectric etchers. 122-123

• 
  H. Abbasi, M. Ghadimi, M. Jenab, N. Javaheri: Vlasov model using kinetic phase point trajectories for the study of BGK modes. 124
• 
  Daeho Kim, Hyonu Chang, Chang-Mo Ryu: Particle simulation of a magnetized dual-frequency capacitively coupled plasma. 125
• 
  Sunmi Choi, Sunghee Lee, Jaekoo Lee, Kyungnam Kim, Geunyoung Yeom: Two-dimensional fluid simulation of large-area plasma source with parallel resonance antenna. 126
• 
  T. H. Chung, Y. M. Shin: Theoretical model of cylindrical Langmuir probe for low-pressure electronegative discharges. 127
• 
  Y. J. Hong, G. J. Kim, S. H. Lee, M. Yoon: Comparison between particle-in-cell Monte-Carlo and fluid simulations of argon microhollow discharges. 128
• 
  Jonghyuk Kang, Ganyoung Park, Jaekoo Lee: Particle-in-Cell/Monte Carlo simulation of CF₄ discharge in capacitively coupled plasma reactor. 129-130
• 
  G. J. Kim, Y. J. Hong, F. Iza, J. K. Lee: Evolution of the electron energy distribution function in pulsed micro hollow cathode discharge. 131
• 
  S. M. Lee, Y. S. Seo, J. K. Lee: Paschen breakdown curve by one-dimensional PIC-MCC simulation. 132
• 
  Sunghee Lee, Sunmi Choi, Jongwon Shon: Two-dimensional fluid simulation of VHF-ICP source with parallel resonance antenna. 133
• 
  Yong-Su Na, J. Y. Kim: Predictive modelling of advanced tokamak scenarios. 134
• 
  Y. S. Seo, S. M. Lee, J. K. Lee: Improvement of luminous efficiency in a mercury-free flat fluorescent lamp (FFL) by using fluid simulation. 135
• 
  S. H. Shin, D. Y. Jeong, J. E. Han, M. Yoon: A tunable coherent IR radiation source based on a self-amplified spontaneous emission free-electron laser. 136
• 
  J. Simek, R. Hrach, P. Jelinek: Computational study of negative ions influence on plasma sheath formation. 137
• 
  Chieh-Tsan Hung, M.-H. Hu, Jong-Shinn Wu, F.-N. Hwang: A new paradigm for solving plasma fluid modeling equations. 138-139

• 
  Kurt Binder, Jürgen Horbach, Andrey Milchev, Marcus Müller, Richard Vink: Monte Carlo simulations of phase transitions of systems in nanoscopic confinement. 140-145

• 
  Joachim Paul Jakob Wittmer, Philippe Beckrich, F. Crevel, Chien-Cheng Huang, Anna Cavallo, T. Kreer, Hendrik Meyer: Are polymer melts "ideal". 146-149
• 
  Erik Luijten, Angelo Cacciuto: Translocation of polymers out of confined geometries. 150-153

• 
  Philipp Schapotschnikow, René Pool, Thijs J. H. Vlugt: Selective adsorption of alkyl thiols on gold in different geometries. 154-157
• 
  Hans J. Herrmann, José S. Andrade Jr., Ascânio D. Araújo: Particles in fluids. 158-161
• 
  Akihiro Nakayama, Katsuya Hasebe, Yuki Sugiyama: Instability of pedestrian flow in 2D optimal velocity model with attractive interaction. 162-163
• 
  Shigeru Taniguchi, Masashi Nakamura, Masaharu Isobe, Nanrong Zhao, Masaru Sugiyama: Heat conduction problem in a one-dimensional hard-point gas: Molecular dynamics and extended thermodynamics. 164-165
• 
  Stefan Wessel: Simulations of atomic gases on frustrated optical lattices. 166-167

• 
  Friederike Schmid, Dominik Düchs, Olaf Lenz, Beate West: A generic model for lipid monolayers, bilayers, and membranes. 168-171
• 
  Frank L. H. Brown: Simple models for biomembrane structure and dynamics. 172-175
• 
  Ming Li, Zhong-Can Ou-Yang: DNA as active polymer: long-range allosteric effect and chromatin loop structure. 176-179

• 
  Joaquín Marro, Joaquín J. Torres, Jesús M. Cortés: Networks with heterogeneously weighted connections and partial synchronization of nodes. 180-183
• 
  Kyungsik Kim, Soo Yong Kim, Deock-Ho Ha: Characteristics of networks in financial markets. 184-185

• 
  Kyoung Eun Lee, Jae Woo Lee, Byoung Hee Hong: Complex networks in a stock market. 186
• 
  Gyuchang Lim, Soo Yoo Kim, Ji-Hyun Kang, Kyungsik Kim: Dynamical models of high-frequency data analysis. 187
• 
  Gimoon Nam, Nam-Kyung Lee: Kinetics of a semiflexible chain under tension. 188
• 
  Yasunori Sakaniwa, Hiroyuki Shima: Numerical study on critical exponents of hyperbolic Ising lattice. 189
• 
  Takayuki Tatekawa: Phase transition in d-dimensional long-range interacting systems. 190

• 
  Rubin H. Landau: Computational Physics Education; why, what and how. 191-194
• 
  Koo-Chul Lee, Julian Lee: Programming physics softwares in Flash. 195-198
• 
  P. H. Borcherds: Python: a language for computational physics. 199-201

• 
  Priya Vashishta, Rajiv K. Kalia, Aiichiro Nakano: Multimillion atom simulations of dynamics of wing cracks and nanoscale damage in glass, and hypervelocity impact damage in ceramics. 202-205
• 
  R. Y. Yang, R. P. Zou, K. J. Dong, X. Z. An, Aibing Yu: Simulation of the packing of cohesive particles. 206-209
• 
  Yongzhi Chen, Xin Chen, Yuefan Deng: Simulating botulinum neurotoxin with constant pH molecular dynamics in Generalized Born implicit solvent. 210-213

• 
  Jooneun An, Sunil Ahn, Sungho Kim, Jysoo Lee: The design of the application and service platform for grid pilot services. 214
• 
  Jaegyoon Hahm, Oh-Kyoung Kwon, Hun Joo Myung, Hyoungwoo Park, Jongsuk Ruth Lee: KMI-R1: A Grid middleware package for K*Grid. 215
• 
  Hyung Jinn Kim, Jongsuk Ruth Lee: A study on a data dissemination mechanism for Grid environment. 216
• 
  Jae-Hyuck Kwak, Sangwan Kim, Young Chul Hwang, Pillwoo Lee: Development of web-based Grid service platform for K*Grid infrastructure. 217
• 
  Daewon Lee, Jaewook Lee, Younggui Yoon: A quadratic string adapted barrier exploring method for locating transition states. 218

• 
  Jamie Shiers: The Worldwide LHC Computing Grid (worldwide LCG). 219-223
• 
  Harvey B. Newman: Networking for High Energy and Nuclear Physics. 224-230
• 
  Shawn McKee: The ATLAS computing model: status, plans and future possibilities. 231-234
• 
  Igor Sfiligoi: CDF computing. 235-238
• 
  Hiroshi Sakamoto: Data grid deployment for high energy physics in Japan. 239-242
• 
  Dongchul Son, Jun-Suhk Suh: HEP computing in Korea. 243-246
• 
  Kihyeon Cho: Cyberinfrastructure in Korea. 247-248

Volume 177, Number 3, August 2007

• 
  Juan Torras, Yao He, Chao Cao, Krishna Muralidharan, Erik Deumens, H.-P. Cheng, Samuel B. Trickey: PUPIL: A systematic approach to software integration in multi-scale simulations. 265-279
• 
  Clas Persson, Claudia Ambrosch-Draxl: A full-band FPLAPW+k.p-method for solving the Kohn-Sham equation. 280-287
• 
  Pablo Cerdá-Durán, Vicent Quilis, José A. Font: AMR simulations of the low T/W bar-mode instability of neutron stars. 288-297
• 
  Amos G. Anderson, William A. Goddard III, Peter Schröder: Quantum Monte Carlo on graphical processing units. 298-306
• 
  Kuo-Chi Liu: Numerical analysis of dual-phase-lag heat transfer in a layered cylinder with nonlinear interface boundary conditions. 307-314

• 
  A. V. Kiselev, T. Wolf: Classification of integrable super-systems using the SsTools environment. 315-328
• 
  D. L. Patiris, K. Blekas, K. G. Ioannides: TRIAC II. A MatLab code for track measurements from SSNT detectors. 329-338

Volume 177, Number 4, August 2007

• 
  M. M. G. Alemany, Manish Jain, Murilo L. Tiago, Yunkai Zhou, Yousef Saad, James R. Chelikowsky: Efficient first-principles calculations of the electronic structure of periodic systems. 339-347
• 
  Mary Ann E. Leung, William P. Reinhardt: Efficient parallel implementation of Bose Hubbard model: Exact numerical ground states and dynamics of gaseous Bose-Einstein condensates. 348-356
• 
  Marko T. Cvitas, Stuart C. Althorpe: Parallelizable split-operator propagator for treating Coriolis-coupled quantum dynamics. 357-361
• 
  Bin Fang, Glenn J. Martyna, Yuefan Deng: A fine grained parallel smooth particle mesh Ewald algorithm for biophysical simulation studies: Application to the 6-D torus QCDOC supercomputer. 362-377

• 
  Wei Qi, Jian-xiong Wang: FDCSUSYDecay: An MSSM decay package. 378-390
• 
  Edoardo Milotti: New version of PLNoise: a package for exact numerical simulation of power-law noises. 391-398
• 
  Ulrich Ellwanger, Cyril Hugonie: NMSPEC: A Fortran code for the sparticle and Higgs masses in the NMSSM with GUT scale boundary conditions. 399-407

Volume 177, Number 5, September 2007

• 
  S. Jolliet, Alberto Bottino, P. Angelino, Roman Hatzky, T. M. Tran, B. F. McMillan, O. Sauter, K. Appert, Y. Idomura, L. Villard: A global collisionless PIC code in magnetic coordinates. 409-425
• 
  Kwang Jin Oh, Yuefan Deng: An efficient parallel implementation of the smooth particle mesh Ewald method for molecular dynamics simulations. 426-431
• 
  Patrick Huber, Joachim Kopp, Manfred Lindner, Mark Rolinec, Walter Winter: New features in the simulation of neutrino oscillation experiments with GLoBES 3.0: (General Long Baseline Experiment Simulator). 432-438

• 
  Patrick Huber, Joachim Kopp, Manfred Lindner, Mark Rolinec, Walter Winter: GLoBES: General Long Baseline Experiment Simulator. 439-440
• 
  S. Jadach, P. Sawicki: mFOAM-1.02: A compact version of the cellular event generator FOAM. 441-458
• 
  Mark Basham, Roger A. Bennett: Solving surface structures from normal incidence X-ray standing wave data. 459-466
• 
  Chao-Hsi Chang, Jian-Xiong Wang, Xing-Gang Wu: GENXICC: A generator for hadronic production of the double heavy baryons Xi_cc, Xi_bc and Xi_bb. 467-478

Volume 177, Number 6, September 2007

• 
  J. M. Franco: Exponentially fitted symplectic integrators of RKN type for solving oscillatory problems. 479-492
• 
  Gianpiero Colonna: Improvements of hierarchical algorithm for equilibrium calculation. 493-499
• 
  Wen-biao Han, Xin-hao Liao: The adjustment-stabilization method for constrained systems. 500-505
• 
  M. Cavaglià, R. Godang, L. Cremaldi, D. Summers: Catfish: A Monte Carlo simulator for black holes at the LHC. 506-517
• 
  Helio Tsuzuki, Paulo S. Branicio, José P. Rino: Structural characterization of deformed crystals by analysis of common atomic neighborhood. 518-523
• 
  Ying Wai Li, Thomas Wüst, David P. Landau, H. Q. Lin: Numerical integration using Wang-Landau sampling. 524-529

• 
  Franci Merzel, Fabien Fontaine-Vive, Mark R. Johnson: NMscatt: a program for calculating inelastic scattering from large biomolecular systems using classical force-field simulations. 530-538
• 
  L. Sturesson, P. Jönsson, Charlotte Froese Fischer: JJGEN: A flexible program for generating lists of jj-coupled configuration state functions. 539-550

Volume 177, Number 7, October 2007

• 
  Di-Bao Wang, Fei-Bin Hsiao, Cheng-Hsin Chuang, Yung-Chun Lee: Algorithm optimization in molecular dynamics simulation. 551-559
• 
  Holger Homann, Jürgen Dreher, Rainer Grauer: Impact of the floating-point precision and interpolation scheme on the results of DNS of turbulence by pseudo-spectral codes. 560-565
• 
  Ayhan Aydin, Bülent Karasözen: Symplectic and multi-symplectic methods for coupled nonlinear Schrödinger equations with periodic solutions. 566-583

• 
  J. Avellar, L. G. S. Duarte, S. E. S. Duarte, L. A. C. P. da Mota: Determining Liouvillian first integrals for dynamical systems in the plane. 584-596
• 
  P. Jönsson, X. He, Charlotte Froese Fischer, I. P. Grant: The grasp2K relativistic atomic structure package. 597-622

• 
  A. Andonov, A. Arbuzov, D. Bardin, S. Bondarenko, P. Christova, L. Kalinovskaya, G. Nanava, W. von Schlippe: Erratum to: "SANCscope - v.1.00" [Computer Physics Communications 174 (2006) 481-517, hep-ph/0411186]. 623-624

Volume 177, Number 8, October 2007

• 
  F. Yasar, M. Dilaver: The simulation of spin glass model of neural networks by the Wang-Landau algorithm. 625-630
• 
  Gyozo I. Egri, Zoltán Fodor, Christian Hoelbling, Sándor D. Katz, Dániel Nógrádi, Kálmán K. Szabó: Lattice QCD as a video game. 631-639

• 
  José M. Martín-García, Renato Portugal, Leon R. U. Manssur: The Invar tensor package. 640-648
• 
  Ochbadrakh Chuluunbaatar, A. A. Gusev, A. G. Abrashkevich, A. Amaya-Tapia, Michael S. Kaschiev, S. Y. Larsen, Sergey I. Vinitsky: KANTBP: A program for computing energy levels, reaction matrix and radial wave functions in the coupled-channel hyperspherical adiabatic approach. 649-675
• 
  Tomasz Dziubak, Jacek Matulewski: An object-oriented C++ implementation of Davidson method for finding a few selected extreme eigenpairs of a large, sparse, real, symmetric matrix. 676-682

Volume 177, Number 9, November 2007

• 
  P.-Y. Chen, Y.-L. Shao, K.-W. Cheng, K.-H. Hsu, Jong-Shinn Wu, J.-P. Ju: Three-dimensional simulation studies on electrostatic predictions for carbon nanotube field effect transistors. 683-688
• 
  Shaozhong Deng, Wei Cai, Donald Jacobs: A comparable study of image approximations to the reaction field. 689-699
• 
  Brendan M. Quine, Valery Tarasyuk, Henok Mebrahtu, Richard Hornsey: Determining star-image location: A new sub-pixel interpolation technique to process image centroids. 700-706
• 
  S.-L. Chang, C.-S. Chien: Adaptive continuation algorithms for computing energy levels of rotating Bose-Einstein condensates. 707-719
• 
  Antonio Soto Meca, Francisco Alhama López, Carlos González Fernández: Density-driven flow and solute transport problems. A 2-D numerical model based on the network simulation method. 720-728
• 
  Seong-Kwan Park, Kyong-Yop Park, Hi Jun Choe: Flow field computation for the high voltage gas blast circuit breaker with the moving boundary. 729-737

• 
  D. Bardin, S. Bondarenko, L. Kalinovskaya, G. Nanava, L. Rumyantsev, W. von Schlippe: SANCnews: Sector ffbb. 738-756

Volume 177, Number 10, November 2007

• 
  Th. Monovasilis, Z. Kalogiratou, T. E. Simos: Families of third and fourth algebraic order trigonometrically fitted symplectic methods for the numerical integration of Hamiltonian systems. 757-763
• 
  Karsten Ahnert, Markus Abel: Numerical differentiation of experimental data: local versus global methods. 764-774
• 
  G. Rewoldt, Z. Lin, Y. Idomura: Linear comparison of gyrokinetic codes with trapped electrons. 775-780
• 
  Norio Inui: Numerical errors resulting from finite-difference approximation in computations of a one-dimensional Schrödinger equation with the Trotter formula. 781-786

• 
  Claude M. Dion, Eric Cancès: Ground state of the time-independent Gross-Pitaevskii equation. 787-798
• 
  Jon Kristian Nilsen: MontePython: Implementing Quantum Monte Carlo using Python. 799-814

Volume 177, Number 11, December 2007

• 
  A. Stökl, E. A. Dorfi: 2-dimensional implicit hydrodynamics on adaptive grids. 815-831
• 
  Weizhu Bao, Yunyi Ge, Dieter Jaksch, Peter A. Markowich, Rada M. Weishäupl: Convergence rate of dimension reduction in Bose-Einstein condensates. 832-850
• 
  Jee-Gong Chang, Cheng-Tai Lee, Yu-Bin Fang, Chi-Chuan Hwang: Generation of random non-overlapping dot patterns for light guides using molecular dynamics simulations with variable r-cut and reflective boundary techniques. 851-862
• 
  Marco Ratto, Andrea Pagano, Peter C. Young: State Dependent Parameter metamodelling and sensitivity analysis. 863-876
• 
  H. Yoshiki: Addendum to: "The cross sections for one phonon emission and absorption by slow neutrons in superfluid liquid Helium" [Computer Physics Communications 151 (2) (2003) 141-148]: Angular distribution of UCN. 877-878

• 
  J. Gluza, K. Kajda, T. Riemann: AMBRE - a Mathematica package for the construction of Mellin-Barnes representations for Feynman integrals. 879-893

• 
  G. Bélanger, F. Boudjema, Alexander Pukhov, A. Semenov: micrOMEGAs 2.0.7: a program to calculate the relic density of dark matter in a generic model. 894-895

Volume 177, Number 12, December 2007

• 
  L. Gr. Ixaru: Fast LP method for the Schrödinger equation. 897-907
• 
  Emmanuel Lorin, Stephan Chelkowski, André D. Bandrauk: A numerical Maxwell-Schrödinger model for intense laser-matter interaction and propagation. 908-932
• 
  Jacques Bloch, Andreas Frommer, Bruno Lang, Tilo Wettig: An iterative method to compute the sign function of a non-Hermitian matrix and its application to the overlap Dirac operator at nonzero chemical potential. 933-943

• 
  Michael P. Barnett, Joseph F. Capitani: The MATHSCOUT Mathematica package to postprocess the output of other scientific programs. 944-950
• 
  Matthias Bollhöfer, Yvan Notay: JADAMILU: a software code for computing selected eigenvalues of large sparse symmetric matrices. 951-964
• 
  Man Ho Yip, M. J. Carvalho: A Monte-Carlo maplet for the study of the optical properties of biological tissues. 965-975

• 
  Ioannis G. Tsoulos, Dimitris Gavrilis, Evangelos Dermatas: GDF v2.0, an enhanced version of GDF. 976-977

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