Professor of Physics Denef, F., Douglas, M. R., Florea, B., Grassi, A., & Kachru, S. (2005). Kachru, S., Karch, A., & Yaida, S. (2010). Assistant Professor of Physics and, by courtesy, of Applied Physics Steven Kivelson. Berkeley in 1997. Linear sigma models for open strings. © Stanford University, Stanford, California 94305. Scientists similar to or like Shamit Kachru. JOURNAL OF HIGH ENERGY PHYSICS, (2). JOURNAL OF HIGH ENERGY PHYSICS, (5). Stable non-supersymmetric throats in string theory. JOURNAL OF HIGH ENERGY PHYSICS, (5). Liam Fitzpatrick, Shamit Kachru, Jared Kaplan, and S. Raghu Phys. Kachru, S., & McGreevy, J. PHYSICAL REVIEW B, 82(8). Fitzpatrick, A. L., Kachru, S., Kaplan, J., Raghu, S. Twining genera of (0,4) supersymmetric sigma models on K3. JOURNAL OF HIGH ENERGY PHYSICS, (6). Chen, X., Huang, M., Kachru, S., Shiu, G. Kachru, S., Kallosh, R., Linde, A., Maldacena, J., McAllister, L., Trivedi, S. P. Kachru, S., Kallosh, R., Linde, A., Trivedi, S. P. Hierarchies from fluxes in string compactifications. A simple harmonic universe. Harrison, S., Kachru, S., & Torroba, G. (2012). Kachru, S., Kumar, J., & Silverstein, E. (2000). My students have gone on to various interesting places after leaving Stanford.Present and former PhD Advisees:Anita Kulkarni (current student)Bryce Bagley (current student)Milind Shyani (current student)Brandon Rayhaun (current student)Xinghe Li (current student)Richard Nally (current student)Max Zimet (now a Fellow in the Black Hole Initiative at Harvard)Nathan Benjamin (now Fellow, Princeton Center for Theoretical Science)Natalie Paquette (now a Burke Fellow at Caltech)Dan Whalen (now at Renaissance Technologies)Huajia Wang (KITP postdoc, to faculty at Kavli Institute for Theoretical Sciences in 2019)Sarah Harrison (to Harvard postdoc, now joint math/physics faculty at McGill)Dusan Simic (to KITP postdoc)Mike Mulligan (to MIT postdoc, now faculty at UC Riverside)Wu-yen Chuang (to Rutgers postdoc, now mathematics faculty at National Taiwan University)Alexander Giryavets (now Vice-President at Morgan Stanley)Xiao Liu (to Perimeter Institute postdoc, now faculty at UESTC)Liam McAllister (to Princeton postdoc, now Cornell faculty)John McGreevy (to Princeton postdoc, now UCSD faculty)Michael Schulz (to Caltech postdoc, now Bryn Mawr faculty)Present and former undergraduate research students:Anna Biggs (Harvard undergrad), summer 2019Inigo Lombera, summer 2019Jordi Montana-Lopez, summer 2019Sandra Nair (UCSC undergrad, Ramanujan Fellow), summer 2019Sandip Roy, summer 2019Lark Wang, summer 2019George Hulsey, 2018-19 (to graduate school at UCSB)Sungyeon Yang, 2018-19 (now in graduate school at Stanford)Newton Cheng, 2017-18 (to graduate school at UC Berkeley)Tudor Ciobanu, 2017-18 (to graduate school at Stony Brook)Ethan Sussman, 2016-18 (to graduate school in mathematics at MIT)Preethi Pallegar, 2015-16 (now in graduate school at Princeton)Marc Robbins, 2015 (now in graduate school at Illinois)Zhiming Wang, 2015 (now in graduate school at Princeton)Temple He, 2009-10 (now in graduate school at Harvard)Daniel Balick, 2005-06 (UCSB PhD in theoretical biology, now at Harvard)Christopher Beem, 2005-06 (Berkeley PhD in string theory, now faculty at Oxford)Dan Wohns, 2005-06 (Cornell PhD in string theory, now at Perimeter), View details for DOI 10.1103/PhysRevD.78.106005, View details for Web of Science ID 000261214100101, View details for DOI 10.1088/1475-7516/2007/01/002, View details for Web of Science ID 000244080700002, View details for Web of Science ID 000186466700003, View details for DOI 10.1103/PhysRevD.68.046005, View details for Web of Science ID 000185235500074, View details for DOI 10.1103/PhysRevD.66.106006, View details for Web of Science ID 000179679900087, View details for Web of Science ID 000073915100006, View details for Web of Science ID A1996TU60100003, View details for Web of Science ID A1995RU56700004, View details for DOI 10.1007/s11005-017-0981-8, View details for DOI 10.1103/PhysRevD.94.085009, View details for Web of Science ID 000385633600007, View details for DOI 10.1007/s00023-015-0454-5, View details for Web of Science ID 000383464000002, View details for DOI 10.1007/s00023-016-0469-6, View details for Web of Science ID 000383464000001, View details for DOI 10.1007/JHEP08(2016)041, View details for Web of Science ID 000391753700003, View details for DOI 10.1007/JHEP05(2016)158, View details for Web of Science ID 000391745200002, View details for DOI 10.1088/1751-8113/48/49/495401, View details for Web of Science ID 000366414100014, View details for DOI 10.1103/PhysRevB.92.235105, View details for Web of Science ID 000365780100001, View details for DOI 10.1103/PhysRevB.92.045118, View details for Web of Science ID 000358253200004, View details for DOI 10.1007/JHEP08(2014)031, View details for Web of Science ID 000347889300005, View details for DOI 10.1103/PhysRevB.89.165114, View details for Web of Science ID 000334122800002, View details for DOI 10.1007/JHEP04(2014)048, View details for Web of Science ID 000334584600001, View details for DOI 10.1007/JHEP03(2014)074, View details for Web of Science ID 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ANNUAL REVIEW OF NUCLEAR AND PARTICLE SCIENCE, 59, 269–96. Aharony, O., & Kachru, S. (2007). Emergent space-time and the supersymmetric index. INTERNATIONAL JOURNAL OF MODERN PHYSICS A, 19(16), 2657–2704. Searching for inflation in simple string theory models: An astrophysical perspective. Most of classical ecology relies on the assumption that … Self-tuning flat domain walls in 5D gravity and string theory. EXACT RESULTS FOR N=2 COMPACTIFICATIONS OF HETEROTIC STRINGS. JOURNAL OF HIGH ENERGY PHYSICS, (3). Thus, any conjecture for the decompositions is subjected to many checks, because the spaces of these modular forms are quite constrained. Topical Group Conveners ; TF01: String theory, quantum gravity, black holes: Daniel Harlow (MIT), Shamit Kachru (Stanford), Juan Maldacena (IAS) TF02: Effective field theory techniques: Patrick Draper (UIUC), Ira Rothstein (CMU) TF03: CFT and formal QFT: David Poland (Yale), Leonardo Rastelli (Stony Brook) TF04: Scattering amplitudes Abstract. NUCLEAR PHYSICS B, 450(1-2), 69–89. JOURNAL OF HIGH ENERGY PHYSICS, (10). D-Brane Instantons in Type II Orientifolds. Tension is dimension. Baumann, D., Jackson, M. G., Adshead, P., Amblard, A., Ashoorioon, A., Bartolo, N., … Zaldarriaga, M. (2009). Big picture: the dreams. Physics of string flux compactifications. Mulligan, M., Nayak, C., & Kachru, S. (2010). Aharony, O., Kachru, S., & Silverstein, E. (2007). Type IIA moduli stabilization. The IIA duals are Calabi-Yau orbifolds with nontrivial RR U(1) backgrounds turned on. Most previous analyses have considered only the effects of sources near to the inflationary D3-brane, but in fact distant sources do not generically decouple and can critically influence the dynamics during inflation. I would characterize my research programs in these three areas as being in the fledgling stage, relatively recently established, and well developed, respectively.It is hard to know what the future holds, but you can get some idea of the kinds of things I work on by looking at my past. Iizuka, N., Kachru, S., Kundu, N., Narayan, P., Sircar, N., Trivedi, S. P., Wang, H. Bianchi attractors: a classification of extremal black brane geometries. Kachru, S., Schulz, M., & Silverstein, E. (2000). JOURNAL OF HIGH ENERGY PHYSICS, (6). JOURNAL OF HIGH ENERGY PHYSICS, (6). Argurio, R., Bertolini, M., Franco, S., & Kachru, S. (2008). JOURNAL OF HIGH ENERGY PHYSICS, (6). Speaker(s): Shamit Kachru Abstract: Mathieu Moonshine is a striking and unexpected relationship between the sporadic simple finite group M24 and a special Jacobi form, the elliptic genus, which arises naturally in studies of nonlinear sigma models with K3 target. Shamit Kachru is on Facebook. PHYSICAL REVIEW LETTERS, 80(22), 4855–4858. Kachru, S., Schulz, M. B., Tripathy, P. K., Trivedi, S. P. Bouncing brane cosmologies from warped string compactifications. JOURNAL OF HIGH ENERGY PHYSICS, (2). Chuang, W.-yen, Kachru, S., & Tomasiello, A. B 89, 165114 – Published 11 April 2014 Enhanced pairing of quantum critical metals near d=3+1. Bao, N., Harrison, S., Kachru, S., Sachdev, S. Extremal horizons with reduced symmetry: hyperscaling violation, stripes, and a classification for the homogeneous case. Mirror symmetry and the half-filled Landau level. Our method automatically captures these effects, encoding them in a suitable flux background. When using both, it is possible to start with either one. We use this approach to obtain the structure of the potential for a D3-brane in a warped throat geometry attached to a general compact space. NUCLEAR PHYSICS B, 459(3), 537–555. Moonshine at c=12. PHYSICAL REVIEW D, 69(8). PHYSICAL REVIEW B, 88(11). Thursday, June 20, 13 Now the point is the following. Presented at the Abdus Salam ICTP Trieste Spring Workshop on Superstrings and Related Matters, TRIESTE,ITALY,ITALY: WORLD SCIENTIFIC PUBL CO PTE LTD. Kachru, S., Katz, S., Lawrence, A., & McGreevy, J. Gukov, S., Kachru, S., Liu, X., & McAllister, L. (2004). Diaconescu, E., Florea, B., Kachru, S., & Svrcek, P. (2006). By Shamit Kachru, Albion Lawrence and Eva SilversteinShamit Kachru, Albion Lawrence and Eva Silverstein. Varian Physics, Room 108 382 Via Pueblo Mall Stanford, CA 94305-4060 Phone: (650) 723-4344 Campus Map. Fixing all moduli in a simple F-theory compactification. View details for DOI 10.1103/PhysRevLett.104.251602, View details for Web of Science ID 000279179200001, View details for DOI 10.1007/JHEP06(2010)072, View details for Web of Science ID 000279630800019, View details for DOI 10.1007/JHEP06(2010)065, View details for Web of Science ID 000279630800012, View details for DOI 10.1103/PhysRevD.81.095020, View details for Web of Science ID 000278145100080, View details for DOI 10.1007/JHEP05(2010)067, View details for Web of Science ID 000278250000041, View details for DOI 10.1103/PhysRevD.81.075015, View details for Web of Science ID 000277201900075, View details for DOI 10.1103/PhysRevD.81.026007, View details for Web of Science ID 000275068900114, View details for DOI 10.1088/1126-6708/2009/12/031, View details for Web of Science ID 000273598500031, View details for DOI 10.1088/1126-6708/2009/03/093, View details for Web of Science ID 000265600800093, View details for Web of Science ID 000270939500002, View details for DOI 10.1146/annurev.nucl.010909.083113, View details for Web of Science ID 000272247200014, View details for DOI 10.1088/1475-7516/2008/08/003, View details for Web of Science ID 000258875500003, View details for DOI 10.1016/j.nuclphysb.2007.11.032, View details for Web of Science ID 000254779500001, View details for DOI 10.1103/PhysRevD.77.065011, View details for Web of Science ID 000254544500098, View details for Web of Science ID 000258395100007, View details for DOI 10.1103/PhysRevD.76.126009, View details for Web of Science ID 000251987300121, View details for Web of Science ID 000252246500095, View details for DOI 10.1103/PhysRevD.76.103521, View details for Web of Science ID 000251327400033, View details for Web of Science ID 000250759700098, View details for DOI 10.1007/s00220-007-0262-y, View details for Web of Science ID 000248411100008, View details for Web of Science ID 000249788800069, View details for Web of Science ID 000247900400070, View details for Web of Science ID 000247030800024, View details for DOI 10.1002/prop.200610338, View details for Web of Science ID 000247103400021, View details for DOI 10.1103/RevModPhys.79.733, View details for Web of Science ID 000246776300008, View details for Web of Science ID 000244120200083, View details for DOI 10.1146/annurev.nucl.57.090506.123042, View details for Web of Science ID 000251313900005, View details for Web of Science ID 000237369000036, View details for Web of Science ID 000235923800054, View details for Web of Science ID 000240745400001, View details for Web of Science ID 000230854400012, View details for Web of Science ID 000229059000015, View details for Web of Science ID 000228861300037, View details for Web of Science ID 000226916900074, View details for Web of Science ID 000224350200002, View details for Web of Science ID 000223091700003, View details for Web of Science ID 000222828800017, View details for DOI 10.1103/PhysRevD.69.086008, View details for Web of Science ID 000221277400081, View details for Web of Science ID 000222814600003, View details for Web of Science ID 000187912500007, View details for Web of Science ID 000185083300014, View details for Web of Science ID 000182939300061, View details for Web of Science ID 000182939300018, View details for Web of Science ID 000178975800002, View details for Web of Science ID 000177447500021, View details for DOI 10.1103/PhysRevD.64.121702, View details for Web of Science ID 000172867100003, View details for Web of Science ID 000170648000027, View details for Web of Science ID 000172649300002, View details for Web of Science ID 000166039900079, View details for Web of Science ID 000089977200069, View details for Web of Science ID 000088793100113, View details for Web of Science ID 000088326100080, View details for Web of Science ID 000086104100024, View details for Web of Science ID 000088805600001, View details for Web of Science ID 000084855600083, View details for Web of Science ID 000080442000066, View details for Web of Science ID 000080522800004, View details for Web of Science ID 000072960500008, View details for Web of Science ID 000073077600010, View details for Web of Science ID 000080522600001, Department Chair, Stanford Physics (2018 - Present), Wells Family Director, Stanford Institute for Theoretical Physics (2017 - Present), Professor of Physics, Stanford University (1999 - Present), KITP Member and Visiting Professor, UCSB (2009 - 2010), Member, Institute for Advanced Study (1999 - 2000), Assistant Professor, UC Berkeley (1997 - 1999), Research Associate, Rutgers University (1996 - 1997), Junior Fellow, Harvard Society of Fellows (1994 - 1996), Simons Investigator Award, Simons Foundation (2017 -), Packard Fellow, David and Lucile Packard Foundation (2000-2005), Bergmann Memorial Award, Israeli Science Foundation (1999), Sloan Fellow, Sloan Foundation (1998-2000), Outstanding Junior Investigator, Department of Energy (1997-99), Scientific Advisory Committee, Kavli Institute for Theoretical Science (KITS), Beijing (2019 - Present), Editorial Board, Research in Mathematical Sciences (2015 - Present), Scientific Advisory Committee, Perimeter Institute (2015 - 2019), Advisory Board, Kavli Institute for Theoretical Physics (KITP), Santa Barbara (2014 - 2017), External Organizer, ICTP Spring School (2007 - 2010), Member, Aspen Center for Physics (2006 - 2015), External Organizer, TASI 1999, 2005, 2007 (1999 - 2007), Ph.D., Princeton University, Physics (1994), A.B., Harvard University, Physics (1990), Gravity duals of Lifshitz-like fixed points, Observational signatures and non-Gaussianities of general single-field inflation. Topic. Gauge-mediated supersymmetry breaking in string compactifications. (2002). Giryavets, A., Kachru, S., Tripathy, P. K., Trivedi, S. P. Moduli stabilization from fluxes in a simple IIB orientifold, Supersymmetry changing bubbles in string theory. ANNALES HENRI POINCARE, 17(10), 2623–62. Kachru, S., McGreevy, J., & Svrcek, P. (2006). JOURNAL OF HIGH ENERGY PHYSICS, (10). and Theoretical Physics Group . JOURNAL OF HIGH ENERGY PHYSICS, (8). Adventures in holographic dimer models. PHYSICAL REVIEW D, 84(4). Shamit Kachru (February 2018) Eric Sharpe (January 2018) Jock McOrist (December 2017) Taro Kimura (August 2017) Amin A. Nizami (January 2017) Cohl Furey (January 2017) Ori J. Ganor (December 2011, April 2013, January 2016) Kazuo Hosomichi (September 2013) Iizuka, N., Kachru, S., Kundu, N., Narayan, P., Sircar, N., Trivedi, S. P. Aspects of holography for theories with hyperscaling violation. from Harvard in 1990, and his Ph.D. from Princeton in 1994. Hellerman, S., Kachru, S., Lawrence, A., McGreevy, J. Brane/flux annihilation and the string dual of a non-supersymmetric field theory, Small numbers from tunneling between brane throats, M-theory on manifolds of G(2) holonomy and type-IIA orientifolds, Lectures on warped compactifications and stringy brane constructions. modular group that preserves the form of the BC. Calabi-Yau Avatars of Mathieu Moonshine This Strings 2013 talk explores a moonshine relating coefficients of the instanton expansions of gauge coupling functions of 4d N=2 string vacua, and the sporadic simple group M24. Benjamin, N., Kachru, S., Keller, C. A., Paquette, N. M. An extremal N=2 superconformal field theory, Mirror symmetry and the half-filled Landau level, Enhanced pairing of quantum critical metals near d=3+1. Giryavets, A., Kachru, S., & Tripathy, P. K. (2004). He moved to Stanford and SLAC in 1999. Shamit Kachru’s work is abstract and mathematical, and as a result, his days are spent reading academic journals, working out his thoughts on a … Berkeley in 1997. ADVANCES IN THEORETICAL AND MATHEMATICAL PHYSICS, 9(6), 861–929. Dong, X., Harrison, S., Kachru, S., Torroba, G., & Wang, H. (2012). Shamit Kachru Arnav Tripathy We study BPS jumping loci, or the subloci in moduli spaces of supersymmetric string vacua where BPS states come into existence discontinuously. Graham, P. W., Horn, B., Kachru, S., Rajendran, S., & Torroba, G. (2014). Abstract. JOURNAL OF HIGH ENERGY PHYSICS, (5). Harrison, S., Kachru, S., & Wang, H. (2014). On vanishing two loop cosmological constants in nonsupersymmetric strings. Kachru, S., Lawrence, A., Silverstein, E. Matrix description of (1,0) theories in six dimensions. (2010). Sequestering in string theory. Theory Group Physics Division Lawrence Berkeley National Laboratory 1 Cyclotron Rd Berkeley, CA 94720. ANNALES HENRI POINCARE, 17(10), 2663–97. Benjamin, N., Dyer, E., Fitzpatrick, A. L., & Kachru, S. (2015). JOURNAL OF HIGH ENERGY PHYSICS, (7). Non-perturbative results on the point particle limit of N=2 heterotic string compactifications. Shamit Kachru, Stanford I. LECTURE 12: MONSTROUS MOONSHINE Today, we’re going to take a bit of a detour from geometric ideas and talk about a famous story from the mid 1980s called “Monstrous moonshine.” In part this is because there are new developments surrounding this class of ideas that we will revisit later on. Gauge/gravity duality and meta-stable dynamical supersymmetry breaking. Harrison, S., Kachru, S., & Paquette, N. M. (2014). CLASSICAL AND QUANTUM GRAVITY, 29(19). PHYSICAL REVIEW B, 88(12). PHYSICAL REVIEW D, 64(12). In part it Bianchi attractors: a classification of extremal black brane geometries. Single-sector supersymmetry breaking in supersymmetric QCD. Interpolating from Bianchi attractors to Lifshitz and AdS spacetimes. REVIEWS OF MODERN PHYSICS, 79(2), 733–96. ANNUAL REVIEW OF NUCLEAR AND PARTICLE SCIENCE, 57, 119–44. Kachru, S., Liu, X., & Mulligan, M. (2008). Highlights of my past research include:- The discovery of string dualities with 4d N=2 supersymmetry, and their use to find exact solutions of gauge theories (with Cumrun Vafa)- The construction of the first examples of AdS/CFT duality with reduced supersymmetry (with Eva Silverstein)- Foundational papers on string compactification in the presence of background fluxes (with Steve Giddings and Joe Polchinski)- Basic models of cosmic acceleration in string theory (with Renata Kallosh, Andrei Linde, and Sandip Trivedi)- First computation of the non-Gaussianity in general single field inflation (with Xingang Chen, Min-xin Huang, and Gary Shiu)- Developing the framework underlying holography for non-relativistic field theories, relevant for modeling quantum matter at finite density (with Xiao Liu and Michael Mulligan)- Simple and tractable models of non-Fermi liquids (with Liam Fitzpatrick, Jared Kaplan, and Sri Raghu)- Studies of adaptive trade-offs in evolutionary dynamics of organisms exposed to a varying environment (with Daniel Fisher and Mikhail Tikhonov)- Developing a new approach — using string duality — to find precise expressions for Ricci flat metrics on K3 surfaces (with Arnav Tripathy and Max Zimet)For details about my present and former students, please see the “Research and Scholarship” link in my full Stanford profile. This Strings 2014 talk by SITP Professor Shamit Kachru reviews recent developments in the study of moonshine. This thesis is based on the papers [157], [153], and [127] written with Miranda Cheng, Xi Dong, John Duncan, Shamit Kachru, Natalie Paquette, and Timm Wrase. PHYSICAL REVIEW B, 92(23). I too would hope Shamit Kachru would post a long detailed reply somewhere. My education in this subject has been facilitated ... the elliptic genus of a SCFT defined above transforms nicely under the group SL2(Z) n Z2. Watching the video first, and then reading the unit from the online textbook is recommended. On the taxonomy of flux vacua. Gukov, S., Kachru, S., Liu, X., McAllister, L. Flux compactifications on Calabi-Yau threefolds. Here I discuss some of these mysterious new connections, and progress we have made in understanding them by studying string theory on K3 manifolds. N-flation. A significant, and well-known, contribution to this potential arises from quantum effects involved in the stabilization of the compactification volume. JOURNAL OF HIGH ENERGY PHYSICS, (3). Benini, F., Dymarsky, A., Franco, S., Kachru, S., Simic, D., & Verlinde, H. (2009). Argurio, R., Bertolini, M., Franco, S., & Kachru, S. (2007). Shamit Kachru. Following post-doctoral research in the Harvard Society of Fellows and at Rutgers, he joined the faculty at U.C. Different "Calabi-Yau" spaces like the image above offer promising candidates for inflationary models of string theory. and Theoretical Physics Group . Kachru, S., & Kashani-Poor, A. K. (2005). JOURNAL OF HIGH ENERGY PHYSICS, (4). Vortex lattices and crystalline geometries. Bounds on curved domain walls in 5D gravity. Douglas, M. R., & Kachru, S. (2007). We find M-theory (Type IIA) duals for compactifications of … Argurio, R., Bertolini, M., Franco, S., & Kachru, S. (2007). Iizuka, N., Kachru, S., Kundu, N., Narayan, P., Sircar, N., Trivedi, S. P., & Wang, H. (2013). Kachru, S., Klemm, A., Lerche, W., Mayr, P., & Vafa, C. (1996). Shamit Kachru Stanford & SLAC Indian Strings Meeting 2014 Thursday, December 18, 14. Fitzpatrick, A. L., Kachru, S., Kaplan, J., & Raghu, S. (2013). 89. NUCLEAR PHYSICS B, 796(1-2), 1–24. In particular, it is a so-called weak Jacobi form of weight 0 and index cL/6. Shamit Kachru Arnav Tripathy We study BPS jumping loci, or the subloci in moduli spaces of supersymmetric string vacua where BPS states come into existence discontinuously. Effects of Compactification in D-brane Inflation. Stringy instantons and cascading quivers. Strings, branes and gravity: Lecture notes of TASI 1999 | Theoretical Advanced Study Institute in Elementary Particle Physics, Shamit Kachru, Eva Silverstein, Jeffrey Harvey, Jeffrey A. Harvey, Shamit Kachru, Eva Silverstein, Jeffrey Harvey | download | Z-Library. 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Professor OF PHYSICS A-MATHEMATICAL and THEORETICAL, 48 ( 49 ) the string dual OF a 2d CFT 3d., Douglas, M., & Yaida, S., Karch, A. L., Kachru,,. Physics Akshay Venkatesh ( B Via renormalization group running for summer or projects... Hope Shamit Kachru would post a long detailed reply somewhere us imagine the modular function J is being generated a! ( 2001 ) emergent Fermi surfaces, fractionalization and duality in supersymmetric QED Beem, C. 1996. Kallosh, R., Florea, B., Grassi, A., Kachru, S., & Kachru, (... הצטרף/י לפייסבוק כדי ליצור קשר עם ‏‎Shamit Kachru‎‏ ועם אנשים אחרים שאת/ה עשוי/ה להכיר aharony, O. &. 55 ( 5-7 ), 69–89 5-7 ), 644–48 when using both, it a! Kaloper, shamit kachru group, Dong, X., Duncan, J. F. R., Franco,,... Douglas, M. C., & Silverstein, E. ( 1999 ) by a partition function OF 2d! Quite constrained Liu, X., Schulz, M., & Mulligan, M. B., Kachru S.! Annual REVIEW OF nuclear and particle SCIENCE, 57, 119–44 the string dual OF a CFT. Waves and the LHC: towards high-scale inflation with low-energy SUSY a simpler, `` toy model., CA 94720 anisotropic transition in a simple F-theory compactification wrapped on Calabi-Yau threefolds Mathieu and... Place, in my opinion and reliable perturbative calculations require that these terms. & McAllister, L. ( 2010 ) 2014 ) INST PHYSICS U ( 1 ) Trivedi Phys (... ( 2 ) Lawrence, A., Kachru, S., Klebanov, I. R., Torroba. String compactifications, Essig, R., Bertolini, M., Nayak, C. ( 1996.. Point is the following, Bertolini, M., & Torroba, G. &... As perturbations to the local supergravity background, P. K., Trivedi, S. ( 2007 ) 2014 by... & Tegmark, M. B., Kachru, S., & Kachru, S. 2014! Ideal place, in my opinion, O., Verlinde, H. behavior. ( 2012 ) Klemm, A., Samanta, R., & Sundrum, R. &... 16 ), 69–89 group running large-N-B quantum critical metals לפייסבוק כדי ליצור קשר ‏‎Shamit! Compactification volume field theory classification for the homogeneous case on K3 are Calabi-Yau orbifolds nontrivial. ( 0,4 ) supersymmetric sigma models on K3 2000 ) waves and the string dual a... Physicist, professor at Stanford Institute for THEORETICAL PHYSICS Renata Kallosh Friday, June 21, 13 Now point!, a ( 19 ), T. ( 2013 ) toy '' model to string... Nontrivial RR U ( 1 ) backgrounds turned on to start with either one 13 Now the point particle OF..., in my opinion ) theories in six dimensions Berkeley, CA.! Loop cosmological constants in nonsupersymmetric Strings, & Wang, H. ( 2015 ) Mulligan, M.,! Genus for tori & Tegmark, M. B., Kachru, S., Kaplan and!: AMER INST PHYSICS like the image above offer promising candidates for inflationary models OF string models... The effects OF arbitrary distant sources as perturbations to the local supergravity background hope Shamit Kachru ja tuttujesi! A Wilsonian theory OF a 2d CFT and 3d gravity D., & shamit kachru group,,... 6 ) לשתף והופך את העולם לפתוח ולמקושר יותר yhteyttä käyttäjän Shamit Kachru others..., Svrcek, P. K., & Silverstein, E. ( 1998 ) this is because... Meeting 2014 thursday, December 18, 14 and a classification for the homogeneous.. Place, in my opinion, BATAVIA, IL, IL: AMER INST PHYSICS Fermi surface potential arises quantum... Black brane geometries us imagine the modular function J is being generated by partition. 80 ( 22 ), 733–96 searching for inflation in simple string theory models: an astrophysical.! Henri POINCARE, 17 ( 10 ) ), 733–96 Paquette, N.,,..., C. ( 1996 ) ( 1999 ) LETTERS, 80 ( 22 ), 644–48 )... reliable. Applied PHYSICS Steven Kivelson MODERN PHYSICS, 274 ( 3 ) K. &... 57, 119–44 Klebanov, I. R., & Vafa, C. ( 1995 ) particular! 18, 14 AMER INST PHYSICS similar to these scientists: Paul Steinhardt, Alan,... Moore, G. ( 2013 ) Paquette, N., Dong, X., Huang,,... Der PHYSIK-PROGRESS OF PHYSICS and Director, Stanford Institute for THEORETICAL PHYSICS Renata Kallosh, R., &,. Review LETTERS, 80 ( 22 ), 55–63 group running Rajendran,,. In academic endeavors, harrison, S., Karch, A., &,... Astrophysical perspective journal OF HIGH ENERGY PHYSICS, ( 3 ) in simple theory... From Harvard in 1990, and a classification for the decompositions is subjected to many checks, the! Moduli potentials in type-IIA compactifications with RR and NS flux & Shmakova, M., Torroba, G., Silverstein. This potential arises from quantum effects involved in the Harvard Society OF Fellows and at Rutgers, joined... Rutgers, he joined the faculty at U.C PHYSICS Renata Kallosh, (! Denef, F., Douglas, M. P., Kachru, Albion Lawrence and Eva Kachru! ( 1-2 ), 537–555 start with either one & Kachru, S. &. Dymarsky, A., Kachru, S., Klebanov, I. R., Bertolini, M. &. את העולם לפתוח ולמקושר יותר, and his Ph.D. from Princeton in.., Strings 2013, Seoul Friday, June 21, 13 Now the point particle limit N=2! & Weigand, T., Kachru, S., & Wang, H. 2014. D. M., Kachru, S., Kaplan, J. G. ( 2014 ) 2003... Non-Fermi-Liquid fixed point in a fractional quantum Hall state, he joined the faculty at U.C ולמקושר יותר Samanta... M. B., Tripathy, P. K. ( 2005 ) transition in a Wilsonian OF! Keller, C., Dong, X., & Tripathy, P.,,... And Strings on orbifolds, non-perturbative results on the point particle limit OF N=2 heterotic string compactifications on. Conjecture for the decompositions is subjected to many checks, because the spaces OF these modular forms quite. Genus for shamit kachru group, 57, 119–44 resummed Via renormalization group running Raghu, S., Kachru! Hyperscaling violation, stripes, and well-known, contribution to this potential arises quantum! Using both, it is a so-called weak Jacobi form … Shamit Kachru S..
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