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Anthony Scopatz
Anthony Scopatz
Unknown affiliation
Verified email at citadel.com
Title
Cited by
Cited by
Year
SymPy: symbolic computing in Python
A Meurer, CP Smith, M Paprocki, O Čertík, SB Kirpichev, M Rocklin, ...
PeerJ Computer Science 3, e103, 2017
14132017
Turbulent amplification of magnetic fields in laboratory laser-produced shock waves
J Meinecke, HW Doyle, F Miniati, AR Bell, R Bingham, R Crowston, ...
Nature Physics 10 (7), 520-524, 2014
1282014
Carrier dynamics in self-assembled ErAs nanoislands embedded in GaAs measured by optical-pump terahertz-probe spectroscopy
RP Prasankumar, A Scopatz, DJ Hilton, AJ Taylor, RD Averitt, JM Zide, ...
Applied Physics Letters 86 (20), 2005
852005
FLASH MHD simulations of experiments that study shock-generated magnetic fields
P Tzeferacos, M Fatenejad, N Flocke, C Graziani, G Gregori, DQ Lamb, ...
High Energy Density Physics 17, 24-31, 2015
742015
Terahertz Circular Dichroism Spectroscopy: A Potential Approach to the In Situ Detection of Life's Metabolic and Genetic Machinery
J Xu, GJ Ramian, JF Galan, PG Savvidis, AM Scopatz, RR Birge, SJ Allen, ...
Astrobiology 3 (3), 489-504, 2003
672003
Fundamental concepts in the Cyclus nuclear fuel cycle simulation framework
KD Huff, MJ Gidden, RW Carlsen, RR Flanagan, MB McGarry, ...
Advances in Engineering Software 94, 46-59, 2016
622016
Effective computation in physics: Field guide to research with python
A Scopatz, KD Huff
" O'Reilly Media, Inc.", 2015
602015
Terahertz circular dichroism spectroscopy of biomolecules
J Xu, J Galan, G Ramian, P Savvidis, A Scopatz, RR Birge, SJ Allen, ...
Chemical and Biological Standoff Detection 5268, 19-26, 2004
532004
FLASH magnetohydrodynamic simulations of shock-generated magnetic field experiments
P Tzeferacos, M Fatenejad, N Flocke, G Gregori, DQ Lamb, D Lee, ...
High Energy Density Physics 8 (4), 322-328, 2012
472012
PyNE: Python for nuclear engineering
AM Scopatz, PK Romano, PPH Wilson, KD Huff
Transactions of the American Nuclear Society 107, 985-987, 2012
302012
1.0 Contributors
P Virtanen, R Gommers, TE Oliphant, M Haberland, T Reddy, ...
SciPy 1, 261-272, 2020
262020
Modeling HEDLA magnetic field generation experiments on laser facilities
M Fatenejad, AR Bell, A Benuzzi-Mounaix, R Crowston, RP Drake, ...
High Energy Density Physics 9 (1), 172-177, 2013
252013
SymPy: symbolic computing in Python. PeerJ Computer Science 3 (Jan. 2017), e103
A Meurer, CP Smith, M Paprocki, O Čertík, SB Kirpichev, M Rocklin, ...
232017
SymPy: symbolic computing in Python, PeerJ Computer Science, 3, e103
A Meurer, CP Smith, M Paprocki, O Čertík, SB Kirpichev, M Rocklin, ...
222017
SymPy: symbolic computing in python. PeerJ Comput. Sci. 3, e103 (2017)
A Meurer, CP Smith, M Paprocki, O Certík, SB Kirpichev, M Rocklin, ...
21
Brodtkorb Per
P Virtanen, R Gommers, TE Oliphant, M Haberland, T Reddy, ...
A., Lee, P., McGibbon Robert, T., Feldbauer, R., Lewis, S., Tygier, S …, 2020
202020
SymPy: symbolic computing in Python, PeerJ Comput. Sci., 3, e103
A Meurer, CP Smith, M Paprocki, O Čertík, SB Kirpichev, M Rocklin, ...
192017
SciPy 1.0: fundamental algorithms for scientific computing in Python, Nat. Meth., 17, 261–272
P Virtanen, R Gommers, TE Oliphant, M Haberland, T Reddy, ...
152020
PyNE progress report
CR Bates, E Biondo, K Huff, K Kiesling, A Scopatz, R Carlsen, A Davis, ...
132014
The sensitivity of fuel cycle performance to separation efficiency
J Li, A Scopatz, MS Yim, E Schneider
Nuclear engineering and design 240 (3), 511-523, 2010
102010
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Articles 1–20