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K R. Jones, K. Dang, D. N. Blaschke, S. J. Fensin, and A. Hunter,
“Exploring the relation between transonic dislocation glide and stacking fault width in fcc metals”,
arXiv:2409.10705 [cond-mat.mtrl-sci].
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D. N. Blaschke, J. S. Carpenter, and A. Hunter,
“Predicting electrical conductivity in bi-metal composites”,
Materials 17 (2024) 5049,
arXiv:2409.04655 [cond-mat.mtrl-sci].
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M. T. Hoang, N. Mathew, D. N. Blaschke, and S. Fensin,
“Effect of helium bubbles on the mobility of edge dislocations in copper”,
Mod. Simul. Mater. Sci. Eng. 32 (2024) 075011,
arXiv:2405.08947 [cond-mat.mtrl-sci].
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D. N. Blaschke, Ta Duong, and Michael J. Demkowicz,
“Comparing theoretical predictions of radiation-free velocities of edge dislocations to molecular dynamics simulations”,
Phys. Rev. B 108 (2023) 224102,
arXiv:2305.06980 [cond-mat.mtrl-sci].
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S. Carpenter, C. Miller, D. N. Blaschke, W. P. Winter, and S. M. Thomas,
“Optimizing Conductivity and Hardness in Cu–Nb Nanolamellar Composites Fabricated Through Accumulative Roll Bonding Without Intermittent Heat Treatments”,
Metall. Mater. Trans. A 54 (2023) 3691-3696,
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D. N. Blaschke, K. Dang, S. Fensin, and D. J. Luscher,
“Properties of accelerating edge dislocations in arbitrary slip systems with reflection symmetry”,
Materials 16 (2023) 4019,
Editors’ Choice,
arXiv:2303.10461 [cond-mat.mtrl-sci].
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D. N. Blaschke, T. Nguyen, M. Nitol, D. O’Malley, and S. Fensin,
“Machine learning based approach to predict ductile
damage model parameters for polycrystalline metals”,
Comput. Mater. Sci. 229 (2023) 112382,
arXiv:2301.07790 [cond-mat.mtrl-sci].
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K. Dang, D. N. Blaschke, S. Fensin, and D. J. Luscher,
“Limiting velocities and transonic dislocations in Mg”,
Comput. Mater. Sci. 215 (2022) 111786,
Editors’ choice,
arXiv:2205.11687 [cond-mat.mtrl-sci].
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D. N. Blaschke, C. Miller, R. Mier, C. Osborn, S. M. Thomas, E. L. Tegtmeier, W. P. Winter, J. S. Carpenter, and A. Hunter,
“Predicting electrical conductivity in Cu/Nb composites: a combined model-experiment study”,
J. Appl. Phys. 132 (2022) 045105,
arXiv:2204.03777 [cond-mat.mtrl-sci].
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D. N. Blaschke,
“How to determine limiting velocities of dislocations in anisotropic crystals”,
J. Phys.: Cond. Mat. 33 (2021) 503005,
arXiv:2107.01220 [cond-mat.mtrl-sci].
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D. N. Blaschke, L. Burakovsky, and D. L. Preston,
“On the temperature and density dependence of dislocation drag from phonon wind”,
J. Appl. Phys. 130 (2021) 015901,
arXiv:2104.08650 [cond-mat.mtrl-sci].
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D. N. Blaschke and D. J. Luscher,
“Dislocation drag and its influence on elastic precursor decay”,
Int. J. Plast. 144 (2021) 103030,
arXiv:2101.10497 [cond-mat.mtrl-sci].
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D. N. Blaschke,
“A general solution for accelerating screw dislocations in arbitrary slip systems with reflection symmetry”,
J. Mech. Phys. Solids 152 (2021) 104448,
arXiv:2009.00167 [cond-mat.mtrl-sci].
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D. N. Blaschke, J. Chen, S. Fensin, and B. A. Szajewski,
“Clarifying the definition of 'transonic' screw dislocations”,
Phil. Mag. 101 (2021) 997-1018,
arXiv:2008.13760 [cond-mat.mtrl-sci].
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D. N. Blaschke and F. Gieres,
“On the canonical formulation of gauge field theories and Poincare transformations”,
Nucl. Phys. B965 (2021) 115366,
arXiv:2004.14406 [hep-th].
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D. N. Blaschke, A. Hunter, and D. L. Preston,
“Analytic model of the remobilization of pinned glide dislocations: including dislocation drag from phonon wind”,
Int. J. Plast. 131 (2020) 102750,
arXiv:1912.08851 [cond-mat.mtrl-sci].
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D. N. Blaschke, E. Mottola, and D. L. Preston,
“Dislocation drag from phonon wind in an isotropic crystal at large velocities”,
Phil. Mag. 100 (2020) 571-600,
arXiv:1907.00101 [cond-mat.mtrl-sci].
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D. N. Blaschke,
“Properties of dislocation drag from phonon wind at ambient conditions”,
Materials 12 (2019) 948,
arXiv:1902.02451 [cond-mat.mtrl-sci].
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D. N. Blaschke, F. Gieres, S. Hohenegger, M. Schweda, and M. Wohlgenannt,
“Field theory with coordinate dependent noncommutativity”,
dedicated to the memory of Manfred Schweda who initiated this work,
SIGMA 14 (2018) 133,
arXiv:1806.02131 [hep-th].
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D. N. Blaschke,
“Velocity dependent dislocation drag from phonon wind and crystal geometry”,
J. Phys. Chem. Solids 124 (2019) 24,
arXiv:1804.01586 [cond-mat.mtrl-sci].
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D. N. Blaschke, E. Mottola, and D. L. Preston,
“On the velocity dependence of the dislocation drag coefficient from phonon wind”,
tech. rep. LA-UR-16-24559, Los Alamos Nat. Lab., 2018.
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D. N. Blaschke and B. A. Szajewski,
“Line tension of a dislocation moving through an anisotropic crystal”,
Phil. Mag. 98 (2018) 2397,
arXiv:1711.10555 [cond-mat.mtrl-sci].
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D. N. Blaschke and D. L. Preston,
“Thermoelastic-plastic flow equations in general coordinates”,
J. Phys. Chem. Solids 119 (2018) 288,
arXiv:1709.07730 [cond-mat.soft].
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D. N. Blaschke,
“Averaging of elastic constants for polycrystals”,
J. Appl. Phys. 122 (2017) 145110,
arXiv:1706.07132 [cond-mat.mtrl-sci].
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D. N. Blaschke and V. Cirigliano,
“Neutrino quantum kinetic equations: The collision term”,
Phys. Rev. D94 (2016) 033009, Editors’ Suggestion,
arXiv:1605.09383 [hep-th].
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D. N. Blaschke, F. Gieres, M. Reboud, and M. Schweda,
“The energy-momentum tensor(s) in classical gauge theories”,
Nucl. Phys. B912 (2016) 192,
arXiv:1605.01121 [hep-th].
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D. N. Blaschke,
“Aspects of perturbative quantum field theory on non-commutative spaces”,
PoS CORFU2015 (2016) 104,
arXiv:1601.03109 [hep-th].
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H. Balasin, D. N. Blaschke, F. Gieres, and M. Schweda,
“On the energy-momentum tensor in Moyal space”,
Eur. Phys. J. C75 (2015) 284,
arXiv:1502.03765 [hep-th].
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D. N. Blaschke, R. Carballo-Rubio, and E. Mottola,
“Fermion pairing and the scalar boson of the 2D conformal anomaly”,
JHEP 12 (2014) 153,
arXiv:1407.8523 [hep-th].
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H. Balasin, D. N. Blaschke, F. Gieres, and M. Schweda,
“Wong's equations and charged relativistic particles in non-commutative space”,
SIGMA 10 (2014) 099,
arXiv:1403.0255 [hep-th].
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D. N. Blaschke,
“Gauge fields on non-commutative spaces and renormalization”,
Fortschr. Phys. 9-10 (2014) 820,
arXiv:1402.5980 [hep-th].
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D. N. Blaschke, F. Gieres, F. Heindl, M. Schweda, and M. Wohlgenannt,
“BPHZ renormalization and its application to non-commutative field theory”,
Eur. Phys. J. C73 (2013) 2566,
arXiv:1307.4650 [hep-th].
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D. N. Blaschke and H. Steinacker,
“Compactified rotating branes in the matrix model, and excitation spectrum towards one loop”,
Eur. Phys. J. C73 (2013) 2414,
arXiv:1302.6507 [hep-th].
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D. N. Blaschke, H. Grosse, and J.-C. Wallet,
“Slavnov-Taylor identities, non-commutative gauge theories and infrared divergences”,
JHEP 06 (2013) 038,
arXiv:1302.2903 [hep-th].
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D. N. Blaschke, T. Garschall, F. Gieres, F. Heindl, M. Schweda, and M. Wohlgenannt,
“On the renormalization of non-commutative field theories”,
Eur. Phys. J. C73 (2013) 2262,
arXiv:1207.5494 [hep-th].
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D. N. Blaschke, “Heat kernel expansion and induced action for the matrix models”,
J. Phys.: Conf. Ser. 343 (2012) 012016,
arXiv:1111.0876 [hep-th].
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D. N. Blaschke and H. Steinacker, “On the 1-loop effective action for the IKKT model and non-commutative branes”,
JHEP 10 (2011) 120,
arXiv:1109.3097 [hep-th].
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D. N. Blaschke, T. Garschall, F. Heindl, M. Schweda, and M. Wohlgenannt,
“Extended BRST formulation of a non-commutative U(1) gauge model”,
arXiv:1104.0334 [hep-th].
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D. N. Blaschke, “Special geometries emerging from Yang-Mills type matrix models”,
PoS CNCFG2010 (2011) 011,
arXiv:1101.5315 [hep-th].
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D. N. Blaschke, H. Steinacker, and M. Wohlgenannt, “Heat kernel expansion and induced action for the matrix model Dirac operator”,
JHEP 03 (2011) 002,
arXiv:1012.4344 [hep-th].
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D. N. Blaschke and H. Steinacker, “Curvature and gravity actions for matrix models II: The case of general Poisson structure”,
Class. Quantum Grav. 27 (2010) 235019,
arXiv:1007.2729 [hep-th].
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D. N. Blaschke, “A new approach to non-commutative U(N) gauge fields”,
EPL 91 (2010) 11001,
arXiv:1005.1578 [hep-th].
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D. N. Blaschke and H. Steinacker, “Schwarzschild geometry emerging from matrix models”,
Class. Quantum Grav. 27 (2010) 185020,
arXiv:1005.0499 [hep-th].
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D. N. Blaschke, E. Kronberger, R. I. P. Sedmik, and M. Wohlgenannt, “Gauge theories on deformed spaces”,
SIGMA 6 (2010) 062,
arXiv:1004.2127 [hep-th].
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D. N. Blaschke and H. Steinacker, “Curvature and gravity actions for matrix models”,
Class. Quantum Grav. 27 (2010) 165010,
arXiv:1003.4132 [hep-th].
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D. N. Blaschke, H. Grosse, E. Kronberger, M. Schweda, and M. Wohlgenannt, “Loop calculations for the non-commutative U(1) gauge field model with oscillator term”,
Eur. Phys. J. C67 (2010) 575,
arXiv:0912.3642 [hep-th].
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D. N. Blaschke, A. Rofner, R. I. P. Sedmik, and M. Wohlgenannt, “On non-commutative U*(1) gauge models and renormalizability”,
J. Phys. A: Math. Theor. 43 (2010) 425401,
arXiv:0912.2634 [hep-th].
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D. N. Blaschke, A. Rofner, and R. I. P. Sedmik, “One-loop calculations and detailed analysis of the localized non-commutative 1/p**2 U(1) gauge model”,
SIGMA 6 (2010) 037,
arXiv:0908.1743 [hep-th].
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D. N. Blaschke, E. Kronberger, A. Rofner, M. Schweda, R. I. P. Sedmik, and M. Wohlgenannt, “On the problem of renormalizability in non-commutative gauge field models — A critical review”,
Fortschr. Phys. 58 (2010) 364,
arXiv:0908.0467 [hep-th].
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D. N. Blaschke, F. Delduc, F. Gieres, M. Schweda, and S. P. Sorella, “Some local and global aspects of the gauge fixing in Yang-Mills theories”,
in: Fundamental Interactions — A Memorial Volume for Wolfgang Kummer, ed. by D. Grumiller, A. Rebhan, and D. Vassilevich, (World Scientific, 2009), pp. 145–174.
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D. N. Blaschke, A. Rofner, M. Schweda, and R. I. P. Sedmik, “Improved localization of a renormalizable non-commutative translation invariant U(1) gauge model”,
EPL 86 (2009) 51002,
arXiv:0903.4811 [hep-th].
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D. N. Blaschke, A. Rofner, M. Schweda, and R. I. P. Sedmik, “One-loop calculations for a translation invariant non-commutative gauge model”,
Eur. Phys. J. C62 (2009) 433,
arXiv:0901.1681 [hep-th].
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D. N. Blaschke, F. Gieres, E. Kronberger, T. Reis, M. Schweda, and R. I. P. Sedmik, “Quantum corrections for translation-invariant renormalizable non-commutative phi^4 theory”,
JHEP 11 (2008) 074,
arXiv:0807.3270 [hep-th].
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D. N. Blaschke, F. Gieres, E. Kronberger, M. Schweda, and M. Wohlgenannt, “Translation-invariant models for non-commutative gauge fields”,
J. Phys. A: Math. Theor. 41 (2008) 252002,
arXiv:0804.1914 [hep-th].
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D. N. Blaschke, “A vector supersymmetry killing IR divergences in non-commutative gauge theories”,
J. Phys.: Conf. Ser. 103 (2008) 012009,
arXiv:0710.3055 [hep-th].
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D. N. Blaschke, H. Grosse, and M. Schweda, “Non-commutative U(1) gauge theory on R**4 with oscillator term and BRST symmetry”,
Europhys. Lett. 79 (2007) 61002,
arXiv:0705.4205 [hep-th].
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D. N. Blaschke and S. Hohenegger, “A generalization of Slavnov-extended non-commutative gauge theories”,
JHEP 08 (2007) 032,
arXiv:0705.3007 [hep-th].
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D. N. Blaschke, F. Gieres, O. Piguet, and M. Schweda, “A vector supersymmetry killing the infrared singularity of gauge theories in non-commutative space”,
PoS IC2006 (2006) 005,
arXiv:hep-th/0610303.
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D. N. Blaschke, F. Gieres, O. Piguet, and M. Schweda, “A vector supersymmetry in noncommutative U(1) gauge theory with the Slavnov term”,
JHEP 05 (2006) 059,
arXiv:hep-th/0604154.
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D. N. Blaschke, S. Hohenegger, and M. Schweda, “Divergences in non-commutative gauge theories with the Slavnov term”,
JHEP 11 (2005) 041,
arXiv:hep-th/0510100.
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M. Attems, D. N. Blaschke, M. Ortner, M. Schweda, S. Stricker, and M. Weiretmayr,
“Gauge independence of IR singularities in non-commutative QFT — and interpolating gauges”,
JHEP 07 (2005) 071,
arXiv:hep-th/0506117.
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M. Attems, D. N. Blaschke, S. Hohenegger, M. Schweda, and S. Stricker, “Gauge (in)dependence and UV/IR mixing”,
arXiv:hep-th/0502198.
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https://orcid.org/0000-0001-5138-1462.