Extensions of theories from soft limits
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[1] Song He,et al. Scattering equations, twistor-string formulas and double-soft limits in four dimensions , 2016, 1604.02834.
[2] C. Cheung,et al. On-Shell Recursion Relations for Effective Field Theories. , 2015, Physical review letters.
[3] C. Wen,et al. Recursion relations from soft theorems , 2015, 1512.06801.
[4] G. Barnich,et al. Notes on the BMS group in three dimensions: II. Coadjoint representation , 2015, 1502.00010.
[5] Kurt Hinterbichler,et al. Hidden symmetry of the Galileon , 2015, 1501.07600.
[6] C. Cheung,et al. Effective Field Theories from Soft Limits of Scattering Amplitudes. , 2014, Physical review letters.
[7] Wei-ming Chen,et al. New Fermionic Soft Theorems for Supergravity Amplitudes. , 2014, Physical review letters.
[8] Song He,et al. Scattering equations and matrices: from Einstein to Yang-Mills, DBI and NLSM , 2014, 1412.3479.
[9] D. Neill,et al. Soft theorems from effective field theory , 2014, 1412.3108.
[10] Zhengwen Liu. Soft theorems in maximally supersymmetric theories , 2014, 1410.1616.
[11] Chih-Hao Fu,et al. Note on soft graviton theorem by KLT relation , 2014, 1408.4179.
[12] K. Kampf,et al. Unification of Galileon dualities , 2014, 1403.6813.
[13] A. Strominger,et al. On BMS invariance of gravitational scattering , 2013, 1312.2229.
[14] P. Goddard,et al. Proof of the formula of Cachazo, He and Yuan for Yang-Mills tree amplitudes in arbitrary dimension , 2013, 1311.5200.
[15] Song He,et al. Scattering of massless particles: scalars, gluons and gravitons , 2013, 1309.0885.
[16] Song He,et al. Scattering of massless particles in arbitrary dimensions. , 2013, Physical review letters.
[17] Song He,et al. Scattering equations and Kawai-Lewellen-Tye orthogonality , 2013, 1306.6575.
[18] L. Mason,et al. Gravity in Twistor Space and its Grassmannian Formulation , 2012, 1207.4712.
[19] Song He,et al. Scattering in three dimensions from rational maps , 2013, 1306.2962.
[20] R. Kallosh,et al. Dirac-Born-Infeld-Volkov-Akulov and deformation of supersymmetry , 2013, 1303.5662.
[21] David Skinner,et al. Gravity from rational curves in twistor space. , 2012, Physical review letters.
[22] Kurt Hinterbichler. Theoretical Aspects of Massive Gravity , 2011, 1105.3735.
[23] T. Søndergaard,et al. The momentum kernel of gauge and gravity theories , 2010, 1010.3933.
[24] J. Kaplan,et al. What is the simplest quantum field theory? , 2008, 0808.1446.
[25] P. Benincasa,et al. Consistency Conditions on the S-Matrix of Massless Particles , 2007, 0705.4305.
[26] Kasper Risager. A direct proof of the CSW rules , 2005, hep-th/0508206.
[27] L. Dixon,et al. On-shell recurrence relations for one-loop QCD amplitudes , 2005, hep-th/0501240.
[28] F. Cachazo,et al. New recursion relations for tree amplitudes of gluons , 2004, hep-th/0412308.
[29] R. Roiban,et al. A Googly amplitude from the B model in twistor space , 2004, hep-th/0402016.
[30] E. Witten. Perturbative Gauge Theory as a String Theory in Twistor Space , 2003, hep-th/0312171.
[31] M. Porrati,et al. 4D Gravity on a Brane in 5D Minkowski Space , 2000, hep-th/0005016.
[32] D. Blair. Gravitational waves in general relativity , 1991 .
[33] A. Tseytlin. Vector Field Effective Action in the Open Superstring Theory , 1986 .
[34] D. Lewellen,et al. A Relation Between Tree Amplitudes of Closed and Open Strings , 1986 .
[35] D. Volkov,et al. Is the Neutrino a Goldstone Particle , 1973 .
[36] L. Susskind,et al. ALGEBRAIC ASPECTS OF PIONIC DUALITY DIAGRAMS. , 1970 .
[37] S. Mandelstam. S-MATRIX THEORY. , 1970 .
[38] Stephen L. Adler,et al. Consistency Conditions on the Strong Interactions Implied by a Partially Conserved Axial-Vector Current , 1965 .
[39] R. Sachs. Gravitational waves in general relativity VIII. Waves in asymptotically flat space-time , 1962, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.
[40] Hermann Bondi,et al. Gravitational waves in general relativity, VII. Waves from axi-symmetric isolated system , 1962, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.
[41] M. Gell-Mann,et al. The axial vector current in beta decay , 1960 .