Anisotropic and frame dependent chaos of suspended strings from a dynamical holographic QCD model with magnetic field

[1]  D. Menezes,et al.  Topical issue on the QCD phase diagram in strong magnetic fields , 2022, The European Physical Journal A.

[2]  S. Mahapatra,et al.  Holographic confining-deconfining gauge theories and entanglement measures with a magnetic field , 2022, Physical Review D.

[3]  K. Rannu,et al.  Anisotropic solution of the holographic model of light quarks with an external magnetic field , 2022, Theoretical and Mathematical Physics.

[4]  D. Dudal,et al.  Entropic force and real-time dynamics of holographic quarkonium in a magnetic field , 2022, Physical Review D.

[5]  D. Giataganas Chaotic Motion near Black Hole and Cosmological Horizons , 2021, Fortschritte der Physik.

[6]  F. Giannuzzi,et al.  Chaotic dynamics of a suspended string in a gravitational background with magnetic field , 2021, Physics Letters B.

[7]  M. Galaverni,et al.  Jordan and Einstein frames from the perspective of ω=3/2 Hamiltonian Brans-Dicke theory , 2021, Physical Review D.

[8]  F. Sanfilippo,et al.  Confining and chiral properties of QCD in extremely strong magnetic fields , 2021, Physical Review D.

[9]  U. Gürsoy Holographic QCD and magnetic fields , 2021, The European Physical Journal A.

[10]  D. Ageev Butterflies dragging the jets: on the chaotic nature of holographic QCD , 2021, 2105.04589.

[11]  M. Oka,et al.  A review of quarkonia under strong magnetic fields , 2021, The European Physical Journal A.

[12]  U. Gursoy Holographic QCD and magnetic fields , 2021, The European Physical Journal A.

[13]  I. Aref’eva,et al.  Anisotropic solutions for a holographic heavy-quark model with an external magnetic field , 2021 .

[14]  D. Dudal,et al.  A quenched 2-flavour Einstein–Maxwell–Dilaton gauge-gravity model , 2021, The European Physical Journal A.

[15]  M. Järvinen,et al.  On the interplay between magnetic field and anisotropy in holographic QCD , 2020, Journal of High Energy Physics.

[16]  F. Fazio,et al.  Chaos in a QQ¯ system at finite temperature and baryon density , 2020 .

[17]  D. Dudal,et al.  Chiral transition in the probe approximation from an Einstein-Maxwell-dilaton gravity model , 2020, Physical Review D.

[18]  K. S. Rigatos Nonintegrability of La,b,c quiver gauge theories , 2020, 2009.11878.

[19]  B. R. Majhi,et al.  Near-horizon local instability and quantum thermality , 2020, Physical Review D.

[20]  Gabriele Gionti S. J. Canonical analysis of Brans-Dicke theory addresses Hamiltonian inequivalence between the Jordan and Einstein frames , 2020, 2003.04304.

[21]  R. Atlas,et al.  Is Weather Chaotic?: Coexistence of Chaos and Order within a Generalized Lorenz Model , 2020, Bulletin of the American Meteorological Society.

[22]  D. Dudal,et al.  Anisotropic string tensions and inversely magnetic catalyzed deconfinement from a dynamical AdS/QCD model , 2019, Physics Letters B.

[23]  Keiju Murata,et al.  Chaos of QCD string from holography , 2019, Physical Review D.

[24]  I. Quirós Selected topics in scalar–tensor theories and beyond , 2019, International Journal of Modern Physics D.

[25]  N. Jokela,et al.  Low-energy modes in anisotropic holographic fluids , 2018, Nuclear Physics B.

[26]  I. Aref’eva,et al.  Orientation dependence of confinement-deconfinement phase transition in anisotropic media , 2018, Physics Letters B.

[27]  M. Loewe,et al.  Thermomagnetic evolution of the QCD strong coupling , 2018, Physical Review D.

[28]  V. Jahnke,et al.  Chaos, diffusivity, and spreading of entanglement in magnetic branes, and the strengthening of the internal interaction , 2018, Journal of High Energy Physics.

[29]  K. Hashimoto,et al.  Phase diagram of QCD chaos in linear sigma models and holography , 2018, Progress of Theoretical and Experimental Physics.

[30]  Keiju Murata,et al.  Chaos of Wilson loop from string motion near black hole horizon , 2018, Physical Review D.

[31]  P. Mishra,et al.  Presence of horizon makes particle motion chaotic , 2018, Physics Letters B.

[32]  Eva Llabrés,et al.  Chaotic Strings in AdS/CFT. , 2017, Physical review letters.

[33]  D. Dudal,et al.  Thermal entropy of a quark-antiquark pair above and below deconfinement from a dynamical holographic QCD model , 2017, 1708.06995.

[34]  D. Giataganas,et al.  Strongly Coupled Anisotropic Gauge Theories and Holography. , 2017, Physical review letters.

[35]  D. Giataganas,et al.  Non-integrability and chaos with unquenched flavor , 2017, 1707.04033.

[36]  F. Fazio,et al.  Quarkonium dissociation in a far-from-equilibrium holographic setup , 2017, 1706.04809.

[37]  D. Dudal,et al.  Confining gauge theories and holographic entanglement entropy with a magnetic field , 2016, 1612.06248.

[38]  M. Järvinen,et al.  Inverse magnetic catalysis from improved holographic QCD in the Veneziano limit , 2016, 1611.06339.

[39]  Keiju Murata,et al.  Fate of chaotic strings in a confining geometry , 2016, 1610.05833.

[40]  Yi Yang,et al.  Inverse magnetic catalysis in the soft-wall model of AdS/QCD , 2016, 1610.04618.

[41]  A. Sanyal,et al.  Why scalar-tensor equivalent theories are not physically equivalent? , 2016, 1609.01824.

[42]  F. Sanfilippo,et al.  Magnetic field effects on the static quark potential at zero and finite temperature , 2016, 1607.08160.

[43]  Kentaroh Yoshida,et al.  Melnikov’s method in String Theory , 2016, 1607.07302.

[44]  P. Basu,et al.  Chaotic dynamics of strings in charged black hole backgrounds , 2016, 1607.04466.

[45]  J. Noronha,et al.  Polyakov loop and heavy quark entropy in strong magnetic fields from holographic black hole engineering , 2016, 1606.09484.

[46]  Keiju Murata,et al.  Chaos in Chiral Condensates in Gauge Theories. , 2016, Physical review letters.

[47]  M. Samal,et al.  Chaos in classical string dynamics in γˆ deformed AdS5 × T1,1 , 2016, 1605.05638.

[48]  D. Simmons-Duffin,et al.  The conformal bootstrap , 2016, Nature Physics.

[49]  B. Majumder,et al.  A question mark on the equivalence of Einstein and Jordan frames , 2016, 1601.06152.

[50]  L. Hinnov,et al.  Geologic evidence for chaotic behavior of the planets and its constraints on the third-order eustatic sequences at the end of the Late Paleozoic Ice Age , 2015 .

[51]  J. Polchinski Chaos in the black hole S-matrix , 2015, 1505.08108.

[52]  Kentaroh Yoshida,et al.  Chaotic strings in a near Penrose limit of AdS5 × T1,1 , 2015, 1505.07583.

[53]  J. Erdmenger,et al.  Gauge/Gravity Duality: Foundations and Applications , 2015 .

[54]  J. Maldacena,et al.  A bound on chaos , 2015, Journal of High Energy Physics.

[55]  V. A. Miransky,et al.  Quantum field theory in a magnetic field: From quantum chromodynamics to graphene and Dirac semimetals , 2015, 1503.00732.

[56]  Matjaz Perc,et al.  A review of chaos-based firefly algorithms: Perspectives and research challenges , 2015, Appl. Math. Comput..

[57]  S. Shenker,et al.  Stringy effects in scrambling , 2014, 1412.6087.

[58]  H. Verlinde,et al.  Conformal bootstrap, universality and gravitational scattering , 2014, 1412.5205.

[59]  Bum-hoon Lee,et al.  Chaos in Lifshitz spacetimes , 2014, 1406.5816.

[60]  Stefan Leichenauer Disrupting Entanglement of Black Holes , 2014, 1405.7365.

[61]  S. Shenker,et al.  Multiple shocks , 2013, 1312.3296.

[62]  D. Giataganas,et al.  On marginal deformations and non-integrability , 2013, 1311.3241.

[63]  S. Shenker,et al.  Black holes and the butterfly effect , 2013, Journal of High Energy Physics.

[64]  K. Tuchin Particle Production in Strong Electromagnetic Fields in Relativistic Heavy-Ion Collisions , 2013, 1301.0099.

[65]  D. Kharzeev,et al.  Strongly Interacting Matter in Magnetic Fields , 2012, 1211.6245.

[66]  A. Tseytlin,et al.  On (non)integrability of classical strings in p-brane backgrounds , 2012, 1211.3727.

[67]  L. P. Pando Zayas,et al.  A string theory explanation for quantum chaos in the hadronic spectrum , 2012, 1209.5902.

[68]  D. Giataganas Probing strongly coupled anisotropic plasma , 2012, 1202.4436.

[69]  W. Deng,et al.  Event-by-event generation of electromagnetic fields in heavy-ion collisions , 2012, 1201.5108.

[70]  A. Bzdak,et al.  Event-by-event fluctuations of magnetic and electric fields in heavy ion collisions , 2011, 1111.1949.

[71]  T. Matos,et al.  The conformal transformation’s controversy: what are we missing? , 2011, 1108.5857.

[72]  D. Mateos,et al.  Anisotropic N=4 super-Yang-Mills plasma and its instabilities. , 2011, Physical review letters.

[73]  S. Voloshin,et al.  Electromagnetic field evolution in relativistic heavy-ion collisions , 2011, 1103.4239.

[74]  A. Ghosh,et al.  Integrability lost: Chaotic dynamics of classical strings on a confining holographic background , 2011, 1103.4101.

[75]  P. Basu,et al.  Chaos rules out integrability of strings on AdS5×T1,1 , 2011, 1103.4107.

[76]  C. Corda Gravitational wave astronomy: the definitive test for the , 2010, 1010.2086.

[77]  L. Mazzanti,et al.  Improved Holographic QCD , 2010, 1006.5461.

[78]  S. Mukherjee,et al.  QCD Phase Transition in a Strong Magnetic Background , 2010, 1005.5365.

[79]  S. Capozziello,et al.  Physical non-equivalence of the Jordan and Einstein frames , 2010, 1003.5394.

[80]  E. D'hoker,et al.  Charged magnetic brane solutions in AdS5 and the fate of the third law of thermodynamics , 2009, 0911.4518.

[81]  G. Silva,et al.  Wilson loops stability in the gauge/string correspondence , 2009, 0911.0662.

[82]  A. Rago,et al.  Wilson loops in string duals of walking and flavored systems , 2009, 0909.0748.

[83]  V. Toneev,et al.  Estimate of the magnetic field strength in heavy-ion collisions , 2009, 0907.1396.

[84]  E. Kiritsis,et al.  Dissecting the string theory dual to QCD , 2009, 0901.1772.

[85]  M. Saal,et al.  Scalar-tensor cosmology at the general relativity limit: Jordan versus Einstein frame , 2007, 0705.4644.

[86]  K. Sfetsos,et al.  Stability of strings dual to flux tubes between static quarks in N=4 SYM , 2006, hep-th/0612139.

[87]  V. Faraoni,et al.  Pseudo)issue of the conformal frame revisited , 2006, gr-qc/0612075.

[88]  K. K. Nandi,et al.  Brans-Dicke Theory:. Jordan Versus Einstein Frame , 2006, gr-qc/0605109.

[89]  Alberto A. Garćıa,et al.  Jordan Frame or Einstein Frame? , 2001 .

[90]  V. I. Tkach,et al.  String versus Einstein frame in an AdS/CFT induced quantum dilatonic brane-world universe , 2000, hep-th/0101003.

[91]  E. Bittner,et al.  Quantum chaos and chiral symmetry at the QCD and QED phase transition , 2000, hep-lat/0009002.

[92]  S. Gubser Curvature Singularities: the Good, the Bad, and the Naked , 2000, hep-th/0002160.

[93]  E. Gunzig,et al.  Einstein Frame or Jordan Frame? , 1999, astro-ph/9910176.

[94]  E. Gunzig,et al.  Conformal transformations in classical gravitational theories and in cosmology , 1998, gr-qc/9811047.

[95]  T. Wettig,et al.  Quantum chaos and QCD at finite chemical potential , 1998, hep-lat/9809057.

[96]  R. Casadio,et al.  CHARGED DILATONIC BLACK HOLES: STRING FRAME VERSUS EINSTEIN FRAME , 1998, gr-qc/9806032.

[97]  T. Wettig,et al.  EVIDENCE FOR QUANTUM CHAOS IN THE PLASMA PHASE OF QCD , 1998, hep-ph/9803285.

[98]  J. Maldacena Wilson loops in large N field theories , 1998, hep-th/9803002.

[99]  R. Dick Inequivalence of Jordan and Einstein Frame: What Is the Low Energy Gravity in String Theory? , 1998 .

[100]  E. Witten Anti-de Sitter space and holography , 1998, hep-th/9802150.

[101]  A. Polyakov,et al.  Gauge Theory Correlators from Non-Critical String Theory , 1998, hep-th/9802109.

[102]  E. Gunzig,et al.  Lensing by gravitational waves in scalar-tensor gravity: Einstein frame analysis , 1998, astro-ph/9801172.

[103]  J. Maldacena The Large-N Limit of Superconformal Field Theories and Supergravity , 1997, hep-th/9711200.

[104]  T. Wettig,et al.  Quantum chaos in QCD at finite temperature , 1997, hep-lat/9709103.

[105]  F. Muzzio,et al.  The Kenics Static Mixer : a Three-dimensional Chaotic Flow , 1997 .

[106]  C. Carver Dynamical Social Psychology: Chaos and Catastrophe for All , 1997 .

[107]  S. Capozziello,et al.  Some aspects of the cosmological conformal equivalence between the `Jordan frame' and the `Einstein frame' , 1996, gr-qc/9612053.

[108]  Sokolowski,et al.  Physical equivalence between nonlinear gravity theories and a general-relativistic self-gravitating scalar field. , 1994, Physical review. D, Particles and fields.

[109]  P Philippe,et al.  Chaos, population biology, and epidemiology: some research implications. , 1993, Human biology.

[110]  Christopher Thompson,et al.  Formation of very strongly magnetized neutron stars - Implications for gamma-ray bursts , 1992 .

[111]  Tanmay Vachaspati,et al.  Magnetic fields from cosmological phase transitions , 1991 .

[112]  David Kelsey,et al.  THE ECONOMICS OF CHAOS OR THE CHAOS OF ECONOMICS , 1988 .

[113]  A. Wolf,et al.  Determining Lyapunov exponents from a time series , 1985 .

[114]  D. Freedman,et al.  Stability in Gauged Extended Supergravity , 1982 .

[115]  C. Lacor,et al.  Chaos , 1876, Molecular Vibrations.

[116]  S. Ellner,et al.  Chaos in Ecology: Is Mother Nature a Strange Attractor?* , 1993 .

[117]  Cho Reinterpretation of Jordan-Brans-Dicke theory and Kaluza-Klein cosmology. , 1992, Physical review letters.