Dubna International Advanced
School of Theoretical Physics
Helmholtz International Summer School
Lattice QCD, Hadron
Structure and
Hadronic Matter
• M. Mueller-Preussker, Humboldt-University Berlin (Germany) ”Introduction to lattice gauge theory I” Lect. 1-4
• K. Jansen, NIC, DESY-Zeuthen (Germany) ”Introduction to lattice gauge theory II” Part 1 Parts 2 and 3 Part 4
• A. Sternbeck, University Regensburg (Germany)/Jena (Germany) ”Simulations with (hybrid) Monte Carlo Algorithms” Lect. notes Tutorial.tar.gz
• O. Philipsen, University Frankfurt (Germany) ”QCD at high temperature and baryonic density” Lect. 1 Lect. 2 Lect. 3 Lect. 4 Exercises
• C. Hoelbling, University Wuppertal (Germany) ”Lattice hadron spectroscopy” Lect. 1-4
• M. Goeckeler, University Regensburg (Germany) ”Hadron structure from lattice QCD” Lect.pdf
• M. Golterman, San Francisco State University (USA) ”Chiral perturbation theory” Lecture notes in eprint 0912.4042.pdf
• A. Walker-Loud, College of William & Mary and Jefferson Lab. (USA) ”Connecting QCD to nuclear physics with the lattice Notes to lect. 1 Notes to lect. 2 and 3 Notes to lect 4 Slides for lect. 4
• F. Maas, Helmholtz Institute Mainz (Germany) ”Low energy precision physics” Lect. 1 and 2
• O. Rogachevsky, JINR Dubna ”Perspectives for relativistic nuclear physics at the NICA accelerating complex” Lect.
• G. Trubnikov, JINR Dubna ”Accelerator complex NICA: a low energy heavy ion collider” Lect.
• V. Bornyakov, IHEP Serpukhov and ITEP Moscow (Russia) ”Color-magnetic monopoles in finite temperature QCD” Lect. 1 and 2.
• G. Endrodi, University Regensburg (Germany) ”External magnetic fields in lattice QCD” Lect. 1 and 2.
• P. Buividovich, University Regensburg (Germany) ”Anomalous transport phenomena: lattice perspective” Parts 1-2
• O. Teryaev, BLTP, JINR Dubna (Russia) ”Rotating QCD media” Lect. 1 Lect. 2
• D. Smith, Technical University Darmstadt (Germany) ”Graphene as lattice field theory” Lect. 1-3
Lectures and tutorials by the heterogeneous computations group of the JINR Laboratory of Information Technologies (LIT)
• D. Podgainy, "Excursion to the Central Information and Computing Complex of LIT"
• O. Streltsova, "Introductory talk" Lect.
• E. Alexandrov, "Introduction to work on the cluster" Lect.
• E. Zemlyanaya, "OpenMP parallel programming technology" Lect.
• T. Sapozhnikova, "MPI parallel programming technology" Lect.
• O. Streltsova and M. Zuev, "Parallel programming with CUDA" Tut. 1 Tut. 2
• A. Ayriyan, "OpenCL parallel programming technology" Tut.
• LIT group, "Practical training: comparison of GPU, multi-core CPU and IntelXeonPhi coprocessor approaches" HybriLIT user instruction HybriLIT manual
• A. Agadjanov (Bonn University), V. Bernard, Ulf-G. Meißner, A. Rusetsky, "Electroweak probes
in the presence of resonances on the lattice" .pdf
• D. Agadjanov (Bonn University), A. Rusetsky, Ulf-G. Meißner,"Partial twisting for scalar mesons"
.pdf
•
S. Antropov (Dnipropetrovsk Nat. Univ.),
“Fitting of Binder Cumulants in SU(2) lattice thermodynamics” .pdf
•
K. U. Can (Tokyo Inst. of Technology) et al,
“Electromagnetic structure of charmed baryons” .pdf
•
M. Denissenya (Graz Univ.), L. Ya . Glozman, C. B. Lang,
“Symmetries of mesons after unbreaking of chiral symmetry” .pdf
* Named among the best!
•
T. M Doi (Kyoto Univ.), H. Suganuma, T. Iritani ,
“Lattice QCD study for relation between quark confinement and chiral symmetry breaking” .pdf
* Named among the best!
•
M. Ferreira (Coimbra Univ.), P. Costa, C. Providencia, O. Lorenco, T. Frederico,
“Inverse magnetic catalysis within (P)NJL models” .pdf
•
J. Günther (Wuppertal Univ.),
"The electroweak transition and the equation of state in the SU(2)-Higgs-model" .pdf
* Named among the best!
•
L. Holicki (Tech. Univ. Darmstadt, Instituk fuer Kernphysik),
”The deconfinement phase transition in SU(2) lattice gauge theory” .pdf
•
J. Hua (Mainz Univ.),
“Calculation and fitting of Nucleon form factors from lattice QCD” .pdf
•
O. Kochetkov (Regensburg Univ.),
“Deconfinement transition in two-flavour lattice QCD with dynamical overlap fermions in an external magnetic field” .pdf
•
N. Kumar (Nat. Inst. of Technology, Jalandhar) and H. Dahiya
“Generalized Parton Distributions and Gravitational Form Factors in Light cone model” .pdf
•
A. Ivanov and O. Pavlovsky (Moscow State Univ.),
“Monte-Carlo calculations for Relativistic Oscillator” .pdf
•
N. Kolomoyets (Dnipropetrovsk Nat. Univ.),
“Spontaneous vacuum magnetization in pure SU(3) LGT” .pdf
•
A.Francis, O. Kaczmarek, M. Mueller, F. Meyer (Bielefeld Univ.,)
“Mesonic spectral functions and transport properties in the quenched QCD continuum” .pdf
•
P. Mohanta (NISER, Bhubaneswar) and S. Basak,
“Heavy Hadron Spectra using NRQCD Action” .pdf
•
A. A. Nikolaev (Far Easten Fed. Univ.), M.V. Ulybyshev,
“Hexagonal lattice model of the AA-stacked bilayer graphene” .pdf
•
M. Padmanath (Graz Univ.), R. G. Edwards, N. Mathur and M. J. Peardon,
“Exited state spectroscopy of charm baryons using lattice QCD” .pdf
•
F. Burger, M. Müller-Preussker, E.-M. Ilgenfritz, and A. M. Trunin (BLTP JINR)
"Comparison of gradient flow with other smearing techniques
applied to Nf = 2 + 1 + 1-flavour QCD at nonzero temperature" .pdf
•
M. Puhr (Regensburg Univ.), P. Buividovich,
“A method to calculate conserved currents and fermionic force for the Lanczos Approximation to the Overlap Dirac Operator” .pdf
•
S. Valgushev (ITEP Moscow)
“Numerical simulations of graphene in external magnetic field”
.pdf * Named among the best!
•
L. Varnhorst (Wuppertal Univ.),
“The Nf=3 critical endpoint at mu=0 with smeared staggered quarks” .pdf
•
J. Bulava, M. Della Morte, J. Heitger, C. Wittemeier (Muenster Univ.),
“Non-perturbative renormalization of axial current in Nf=3 lattice
QCD with Wilson fermions and tree-level improved gauge action” .pdf