2010 - Fellow, The World Academy of Sciences
1998 - Fellow of John Simon Guggenheim Memorial Foundation
His primary scientific interests are in Particle physics, Theoretical physics, Supersymmetry, Moduli and String theory. All of his Theoretical physics and String, Compactification, Dilaton, Orbifold and Brane investigations are sub-components of the entire Theoretical physics study. His String research is multidisciplinary, incorporating perspectives in Orientifold, Inflation and De Sitter universe.
He has researched Supersymmetry in several fields, including Quark and Special unitary group. As part of the same scientific family, Fernando Quevedo usually focuses on Moduli, concentrating on Scalar potential and intersecting with Calabi–Yau manifold. The study incorporates disciplines such as Pure mathematics, Quantum electrodynamics, Gravitational singularity, Superpotential and Hidden sector in addition to String theory.
His primary areas of investigation include Theoretical physics, Particle physics, Moduli, String and Supersymmetry. His Theoretical physics study incorporates themes from Gravitational singularity and De Sitter universe. The various areas that Fernando Quevedo examines in his De Sitter universe study include Effective field theory and Hidden sector.
The Moduli study combines topics in areas such as Compactification, Scalar potential, Mathematical physics, Superpotential and Goldstino. His String study combines topics from a wide range of disciplines, such as Orientifold, Inflation, Dilaton, D-brane and Gauge group. His biological study spans a wide range of topics, including Large Hadron Collider, Orbifold and Extra dimensions.
Fernando Quevedo focuses on Moduli, Theoretical physics, String, De Sitter universe and String theory. Fernando Quevedo has included themes like Goldstino, Pure mathematics, Effective field theory and Mathematical physics in his Moduli study. His Theoretical physics study integrates concerns from other disciplines, such as Supersymmetry breaking, Supersymmetry, Particle physics, Cosmology and Observable.
His String research includes themes of Embedding, Inflation and Symmetry. In his study, Hidden sector is inextricably linked to Brane cosmology, which falls within the broad field of De Sitter universe. His work is dedicated to discovering how String theory, Quintessence are connected with Fifth force and other disciplines.
Fernando Quevedo mainly focuses on Theoretical physics, Moduli, String, String theory and De Sitter universe. His work in Theoretical physics addresses subjects such as Cosmology, which are connected to disciplines such as Observable. His work deals with themes such as Goldstino, Supersymmetry breaking, F-theory, Nilpotent and Particle physics, which intersect with Moduli.
Fernando Quevedo works mostly in the field of String, limiting it down to concerns involving Inflation and, occasionally, Displacement, Universe and Attractor. His String theory research incorporates themes from Dark energy, Quintessence and Swampland. The study incorporates disciplines such as Brane cosmology and Hidden sector in addition to De Sitter universe.
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Systematics of moduli stabilisation in Calabi-Yau flux compactifications
Vijay Balasubramanian;Peter Berglund;Joseph P. Conlon;Fernando Quevedo.
Journal of High Energy Physics (2005)
Model-independent properties and cosmological implications of the dilaton and moduli sectors of 4D strings
B. de Carlos;J.A. Casas;J.A. Casas;F. Quevedo;E. Roulet.
Physics Letters B (1993)
Physics interplay of the LHC and the ILC
G. Weiglein;S. Lehti;G. Belanger;T. Han.
Physics Reports (2006)
Orbifolds and Wilson Lines
L.E. Ibáñez;H.P. Nilles;F. Quevedo.
Physics Letters B (1987)
Model Independent Properties and Cosmological Implications of the Dilaton and Moduli Sectors of 4-d Strings
B. de Carlos;J.A. Casas;F. Quevedo;E. Roulet.
arXiv: High Energy Physics - Phenomenology (1993)
Large-volume flux compactifications: Moduli spectrum and D3/D7 soft supersymmetry breaking
Joseph P. Conlon;Fernando Quevedo;Kerim Suruliz.
Journal of High Energy Physics (2005)
Strong-weak coupling duality and non-perturbative effects in string theory
A. Font;Luis E. Ibanez;D. Lust;F. Quevedo.
Physics Letters B (1990)
The Inflationary Brane-Antibrane Universe
Clifford P. Burgess;Clifford P. Burgess;Mahbub Majumdar;Detlef Nolte;Fernando Quevedo.
Journal of High Energy Physics (2001)
D-Branes at Singularities : A Bottom-Up Approach to the String Embedding of the Standard Model
Gerardo Aldazabal;Gerardo Aldazabal;Luis E. Ibáñez;Fernando Quevedo;Angel M. Uranga.
Journal of High Energy Physics (2000)
Physics Interplay of the LHC and the ILC
G. Weiglein;T. Barklow.
arXiv: High Energy Physics - Phenomenology (2004)
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