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Institution

Schrödinger

Company
About: Schrödinger is a based out in . It is known for research contribution in the topics: Sputtering & Ion. The organization has 1621 authors who have published 2200 publications receiving 81554 citations.
Topics: Sputtering, Ion, Cycloaddition, Laser, Bicyclic molecule
Papers published on a yearly basis
Papers
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Journal ArticleDOI
A modified Mottola-Wipf model with sphaleron and instanton fields

[...]

Bernard Piette1, Harald J W Müller-Kirsten2, D.H. Tchrakian3, D.H. Tchrakian4, Wojciech J. Zakrzewski1 
Durham University1, Schrödinger2, St Patrick's College, Maynooth3, Dublin Institute for Advanced Studies4
13 Jan 1994-Physics Letters B
TL;DR: In this paper, the Mottola-Wipf O(3) sigma model was extended with a Skyrme term and the resulting model supports a localised instanton solution, as well as sphaleron solution in the static limit.

58 citations

Journal ArticleDOI
Outcome of the First wwPDB/CCDC/D3R Ligand Validation Workshop

[...]

Paul D. Adams1, Kathleen Aertgeerts, Cary B. Bauer2, Jeffrey A. Bell3, Helen M. Berman4, Talapady N. Bhat5, Jeff Blaney6, Evan E Bolton7, Gérard Bricogne, David G. Brown8, Stephen K. Burley4, Stephen K. Burley9, David A. Case4, Kirk Clark10, Tom Darden, Paul Emsley11, Victoria A. Feher12, Zukang Feng4, Colin R. Groom13, Seth F. Harris6, Jorg Hendle, Thomas Holder3, Andrzej Joachimiak14, Gerard J. Kleywegt15, T. Krojer16, Joseph Marcotrigiano4, Alan E. Mark17, John L. Markley18, Matthew T. Miller4, Wladek Minor19, Gaetano T. Montelione4, Garib N. Murshudov11, Atsushi Nakagawa20, Haruki Nakamura20, Anthony Nicholls, Marc C. Nicklaus7, Robert T. Nolte21, Anil K. Padyana22, Catherine E. Peishoff21, Susan Pieniazek23, Randy J. Read13, Chenghua Shao4, Steven Sheriff23, Oliver S. Smart15, Stephen M. Soisson24, John Spurlino25, Terry R. Stouch, Radka Svobodová26, Wolfram Tempel16, Thomas C. Terwilliger27, Dale E. Tronrud28, Sameer Velankar15, Suzanna C. Ward13, Gregory L. Warren, John D. Westbrook4, Pamela A. Williams29, Huanwang Yang4, Jasmine Young4 
Lawrence Berkeley National Laboratory1, Bruker2, Schrödinger3, Rutgers University4, National Institute of Standards and Technology5, Genentech6, National Institutes of Health7, University of Kent8, University of Montana9, Novartis10, Laboratory of Molecular Biology11, University of California, San Diego12, University of Cambridge13, Argonne National Laboratory14, European Bioinformatics Institute15, Structural Genomics Consortium16, University of Queensland17, University of Wisconsin-Madison18, University of Virginia19, Osaka University20, GlaxoSmithKline21, Agios Pharmaceuticals22, Bristol-Myers Squibb23, United States Military Academy24, Janssen Pharmaceutica25, Central European Institute of Technology26, Los Alamos National Laboratory27, Oregon State University28, Astex29
05 Apr 2016-Structure
TL;DR: The proceedings and conclusions from the first Worldwide PDB/Cambridge Crystallographic Data Center/Drug Design Data Resource/D3R Ligand Validation Workshop are described, with consensus recommendations on best practices developed in response to each of these questions provided.

58 citations

Journal ArticleDOI
Subplantation effect in magnetron sputtered superhard boron carbide thin films

[...]

S. Ulrich, H. Ehrhardt1, J. Schwan1, R. Samlenski2, R. Brenn2 
Schrödinger1, University of Freiburg2
01 Jun 1998-Diamond and Related Materials
TL;DR: In this paper, the effect of argon ion implantation measured by Rutherford back scattering is discussed, which can be explained quantitatively by knock-on subplantation, and the hardness enhancement is correlated with the increase of stress.

58 citations

Journal ArticleDOI
Palladium(0)‐ and Nickel(0)‐Catalyzed [3 + 2] Co‐Cyclization Reactions of Bicyclopropylidene with Alkenes

[...]

Paul Binger, Petra Wedemann1, Sergei I. Kozhushkov2, Armin de Meijere
Schrödinger1, University of Göttingen2
01 Jan 1998-European Journal of Organic Chemistry
TL;DR: In this paper, a co-cyclization with electron deficient alkenes (methyl acrylate, methyl trans-crotonate, methyl cinnamate and diethyl fumarate) was shown to be regioselective with respect to the biclopropylidene.

57 citations

Journal ArticleDOI
A Unified Conformal Field Theory Description¶of Paired Quantum Hall States

[...]

Andrea Cappelli, Lachezar S. Georgiev1, Ivan T. Todorov1
Schrödinger1
01 Sep 1999-Communications in Mathematical Physics
TL;DR: In this article, the authors constructed the complete unitary theory of the Haldane-Rezayi paired Hall state and showed that it consistently describes the edge excitations of the state.
Abstract: The wave functions of the Haldane–Rezayi paired Hall state have been previously described by a non-unitary conformal field theory with central charge c=−2. Moreover, a relation with the c=1 unitary Weyl fermion has been suggested. We construct the complete unitary theory and show that it consistently describes the edge excitations of the Haldane–Rezayi state. Actually, we show that the unitary (c=1) and non-unitary (c=−2) theories are related by a local map between the two sets of fields and by a suitable change of conjugation. The unitary theory of the Haldane–Rezayi state is found to be the same as that of the 331 paired Hall state. Furthermore, the analysis of modular invariant partition functions shows that no alternative unitary descriptions are possible for the Haldane–Rezayi state within the class of rational conformal field theories with abelian current algebra. Finally, the known c= 3/2 conformal theory of the Pfaffian state is also obtained from the 331 theory by a reduction of degrees of freedom which can be physically realized in the double-layer Hall systems.

57 citations

Authors

Showing all 1631 results

NameH-indexPapersCitations
Carlo Rovelli1461502103550
Stephen Fairhurst10942671657
Richard A. Friesner9736752729
Abhay Ashtekar9436637508
David E. Shaw8829842616
A. M. Vinogradov8636223091
Andrea Negri7924235311
George F. R. Ellis7645330364
Burkard Hillebrands7658623270
Vlatko Vedral7551233162
Klaus Friedrich7537419061
Ruhong Zhou7035218687
Lukas Schreiber6921714212
Lionel Tarassenko6739516265
Joachim R. Krenn6622417514
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Performance
Metrics
No. of papers from the Institution in previous years
YearPapers
20232
202216
202169
202076
201967
201861