Adam Rettig
University of California, Berkeley
8 Papers
36 Citations
Adam Rettig is an academic researcher from University of California, Berkeley. The author has contributed to research in topics: Density functional theory & Excited state. The author has an hindex of 5, co-authored 8 publications.
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Papers
Software for the frontiers of quantum chemistry: An overview of developments in the Q-Chem 5 package
Evgeny Epifanovsky,Andrew T.B. Gilbert,Andrew T.B. Gilbert,Xintian Feng,Xintian Feng,Joonho Lee,Yuezhi Mao,Narbe Mardirossian,Narbe Mardirossian,Pavel Pokhilko,Alec F. White,Marc P. Coons,Adrian L. Dempwolff,Zhengting Gan,Diptarka Hait,Paul R. Horn,Leif D. Jacobson,Ilya Kaliman,Jörg Kussmann,Adrian W. Lange,Ka Un Lao,Daniel S. Levine,Jie Liu,Jie Liu,Simon C. McKenzie,Adrian F. Morrison,Kaushik D. Nanda,Felix Plasser,Felix Plasser,Dirk R. Rehn,Marta L. Vidal,Zhi-Qiang You,Zhi-Qiang You,Ying Zhu,Bushra Alam,Benjamin J. Albrecht,Abdulrahman Aldossary,Ethan Alguire,J. Andersen,Vishikh Athavale,Dennis Barton,Khadiza Begam,Andrew Behn,Nicole Bellonzi,Yves A. Bernard,Eric J. Berquist,Hugh G. A. Burton,Abel Carreras,Kevin Carter-Fenk,Romit Chakraborty,Romit Chakraborty,Alan D. Chien,Kristina D. Closser,Vale Cofer-Shabica,Saswata Dasgupta,Marc de Wergifosse,Jia Deng,Michael Diedenhofen,Hainam Do,Sebastian Ehlert,Po Tung Fang,Shervin Fatehi,Shervin Fatehi,Shervin Fatehi,Qingguo Feng,Triet Friedhoff,James R. Gayvert,Qinghui Ge,Gergely Gidofalvi,Matthew Goldey,Joseph Gomes,Cristina E. González-Espinoza,Sahil Gulania,Anastasia O. Gunina,Magnus W. D. Hanson-Heine,Phillip H.P. Harbach,Andreas W. Hauser,Michael F. Herbst,Michael F. Herbst,Mario Hernández Vera,Manuel Hodecker,Zachary C. Holden,Shannon E. Houck,Xunkun Huang,Kerwin Hui,Bang C. Huynh,Maxim V. Ivanov,Ádám Jász,Hyunjun Ji,Hanjie Jiang,Benjamin Kaduk,Sven Kähler,Kirill Khistyaev,Jae-Hoon Kim,Gergely Kis,Phil Klunzinger,Zsuzsanna Koczor-Benda,Joong Hoon Koh,Dimitri Kosenkov,Laura Koulias,Tim Kowalczyk,Tim Kowalczyk,Caroline M. Krauter,Karl Y Kue,Alexander A. Kunitsa,Thomas Kus,István Ladjánszki,Arie Landau,Keith V. Lawler,Daniel Lefrancois,Susi Lehtola,Susi Lehtola,Run R. Li,Yi-Pei Li,Jiashu Liang,Marcus Liebenthal,Hung Hsuan Lin,You Sheng Lin,Fenglai Liu,Kuan-Yu Liu,Matthias Loipersberger,Arne Luenser,Aaditya Manjanath,Prashant Uday Manohar,Erum Mansoor,Sam F. Manzer,Shan Ping Mao,Aleksandr V. Marenich,Thomas Markovich,Stephen E. Mason,Simon A. Maurer,Peter F. McLaughlin,Maximilian F. S. J. Menger,Jan-Michael Mewes,Stefanie A. Mewes,Pierpaolo Morgante,J. Wayne Mullinax,Katherine J. Oosterbaan,Katherine J. Oosterbaan,Garrette Paran,Garrette Paran,Alexander C. Paul,Suranjan K. Paul,Fabijan Pavošević,Zheng Pei,Stefan Prager,Emil Proynov,Ádám Rák,Eloy Ramos-Cordoba,Bhaskar Rana,Alan E. Rask,Adam Rettig,Ryan M. Richard,Fazle Rob,Elliot Rossomme,Tarek Scheele,Maximilian Scheurer,Matthias Schneider,Nickolai Sergueev,Shaama Mallikarjun Sharada,Wojciech Skomorowski,David W. Small,Christopher J. Stein,Yu-Chuan Su,Eric J. Sundstrom,Zhen Tao,Jonathan Thirman,Gábor János Tornai,Takashi Tsuchimochi,Norm M. Tubman,Srimukh Prasad Veccham,Oleg A. Vydrov,Jan Wenzel,Jon Witte,Atsushi Yamada,Kun Yao,Sina Yeganeh,Shane R. Yost,Alexander Zech,Igor Ying Zhang,Xing Zhang,Yu Zhang,Dmitry Zuev,Alán Aspuru-Guzik,Alexis T. Bell,Nicholas A. Besley,Ksenia B. Bravaya,Bernard R. Brooks,David Casanova,Jeng-Da Chai,Sonia Coriani,Christopher J. Cramer,György Cserey,A. Eugene DePrince,Robert A. DiStasio,Andreas Dreuw,Barry D. Dunietz,Thomas R. Furlani,William A. Goddard,Sharon Hammes-Schiffer,Teresa Head-Gordon,Warren J. Hehre,Chao-Ping Hsu,Chao-Ping Hsu,Thomas-C. Jagau,Thomas-C. Jagau,Yousung Jung,Andreas Klamt,Jing Kong,Daniel S. Lambrecht,WanZhen Liang,WanZhen Liang,Nicholas J. Mayhall,C. William McCurdy,Jeffrey B. Neaton,Christian Ochsenfeld,John Parkhill,Roberto Peverati,Vitaly A. Rassolov,Yihan Shao,Lyudmila V. Slipchenko,Tim Stauch,Tim Stauch,Ryan P. Steele,Joseph E. Subotnik,Alex J. W. Thom,Alexandre Tkatchenko,Donald G. Truhlar,Troy Van Voorhis,Tomasz Adam Wesolowski,K. Birgitta Whaley,H. Lee Woodcock,Paul M. Zimmerman,Shirin Faraji,Peter Gill,Peter Gill,Martin Head-Gordon,John M. Herbert,Anna I. Krylov +238 more
TL;DR: The Q-Chem quantum chemistry program package as discussed by the authors provides a suite of tools for modeling core-level spectroscopy, methods for describing metastable resonances, and methods for computing vibronic spectra, the nuclear-electronic orbital method, and several different energy decomposition analysis techniques.
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Well-behaved versus ill-behaved density functionals for single bond dissociation: Separating success from disaster functional by functional for stretched H2.
TL;DR: It is found that many widely used density functional approximations fail to describe features along the dissociation curve of the simple H2 molecule, suggesting that the use of problematic functionals is probably unwise in ab initio dynamics calculations, especially if strong electrostatic interactions are possible.
Beyond the Coulson-Fischer point: Characterizing single excitation CI and TDDFT for excited states in single bond dissociations
TL;DR: In this article, the authors studied the behavior of the resulting excited state potential energy surfaces beyond the Coulson-Fisher (CF) point in single bond dissociations, when the optimal reference determinant is spin-polarized.
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Crossed Beam Experiments and Computational Studies of Pathways to the Preparation of Singlet Ethynylsilylene (HCCSiH; X1A'): The Silacarbene Counterpart of Triplet Propargylene (HCCCH; X3B).
TL;DR: In this article, a barrierless reaction pathway involving 1,1-insertion of dicarbon into one of the silicon-hydrogen bonds followed by hydrogen migration to form the 3-sila-methylacetylene (HCCSiH3) intermediate is presented.
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Molecular magnetisabilities computed via finite fields: assessing alternatives to MP2 and revisiting magnetic exaltations in aromatic and antiaromatic species
Tim Stauch,Brad Ganoe,Jonathan M. Wong,Joonho Lee,Adam Rettig,Jiashu Liang,Jie Li,Evgeny Epifanovsky,Teresa Head-Gordon,Martin Head-Gordon,Martin Head-Gordon +10 more
TL;DR: In this paper, the second-order derivatives of the energy with respect to external perturbations are used to avoid the need for analytic second derivatives, which is the case in the case of magnetisabilities.
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