Your search keyword '"Carlos Hoyos"' showing total 83 results

1. Weak rates in strongly coupled cold quark matter

Author

Carlos Hoyos, Andrea Olzi, and David Rodriguez-Fernandez

Subjects

Gauge-Gravity Correspondence, Finite Temperature or Finite Density, Thermal Field Theory, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract The rates of flavor-changing weak processes are crucial in determining the conditions of beta equilibrium in neutron stars and mergers, influencing the damping of oscillations, the stability of rotating pulsars, and the emission of gravitational waves. We derive a formula for these rates at nonzero temperature, to leading order in the Fermi coupling and exact in the QCD coupling. Utilizing a simple phenomenological holographic model dual to QCD, we study massless unpaired quark matter at high densities. We numerically compute the rate for small deviations from beta equilibrium and derive an analytic approximation for small temperatures. Our findings reveal that, compared to the perturbative result, the rate is suppressed by logarithmic factors of the temperature.

Published

2024

2. Spinodal slowing down and scaling in a holographic model

Author

Alessio Caddeo, Oscar Henriksson, Carlos Hoyos, and Mikel Sanchez-Garitaonandia

Subjects

AdS-CFT Correspondence, Gauge-Gravity Correspondence, Holography and Condensed Matter Physics (AdS/CMT), Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract The dynamics of first-order phase transitions in strongly coupled systems are relevant in a variety of systems, from heavy ion collisions to the early universe. Holographic theories can be used to model these systems, with fluctuations usually suppressed. In this case the system can come close to a spinodal point where theory and experiments indicate that the behaviour should be similar to a critical point of a second-order phase transition. We study this question using a simple holographic model and confirm that there is critical slowing down and scaling behaviour close to the spinodal point, with precise quantitative estimates. In addition, we determine the start of the scaling regime for the breakdown of quasistatic evolution when the temperature of a thermal bath is slowly decreased across the transition. We also extend the analysis to the dynamics of second-order phase transitions and strong crossovers.

Published

2024

3. Higgs phases at non-zero density from holography

Author

Oscar Henriksson, Antti Hippeläinen, Carlos Hoyos, Niko Jokela, and Aleksi Piispa

Subjects

AdS-CFT Correspondence, Finite Temperature or Finite Density, Gauge-Gravity Correspondence, Gauge Symmetry, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract We show how Higgs phases at non-zero density can be described using a simple analytic method for gauge theories possessing a holographic dual. We introduce co-dimension one branes in a bottom-up gravity dual that are sources of form flux, such that the effective curvature radius is changed when the brane is crossed. This mimics the expected flow produced by color branes nucleating in a top-down model.

Published

2023

4. Monopoles and confinement in three dimensions from holography

Author

Antón F. Faedo, Carlos Hoyos, and Javier G. Subils

Subjects

Confinement, Gauge-Gravity Correspondence, Solitons Monopoles and Instantons, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract We study the phase diagram of a confining three-dimensional N $$ \mathcal{N} $$ = 1 supersymmetric U(N) × U(N + M) theory with holographic dual corresponding to a known string theory solution. The theory possesses a global U(1) symmetry under which magnetic monopoles are charged. We introduce both temperature and an external magnetic field for monopoles and find that there are deconfinement phase transitions as any of the two is increased, supporting monopole condensation as the possible mechanism for confinement. We find that the transition as the magnetic field is increased is second order, providing the first example in holographic duals of a deconfinement transition which is not first order. We also uncover a rich structure in the phase diagram, with a triple point and a critical point where a line of first order transitions end.

Published

2023

5. Holographic RG flow and reparametrization invariance of Wilson loops

Author

Diego Gutiez and Carlos Hoyos

Subjects

AdS-CFT Correspondence, Gauge-Gravity Correspondence, Wilson, ‘t Hooft and Polyakov loops, Random Systems, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract We study the fate of reparametrization invariance of Wilson loops, also known as ‘zig-zag’ symmetry, under the RG flow using some simple cases as guidance. We restrict our analysis to large-N, strongly coupled CFTs and use the holographic dual description of a Wilson loop as a fundamental string embedded in asymptotically AdS spaces, at zero and nonzero temperature. We then introduce a cutoff in the holographic radial direction and integrate out the section of the string closer to the AdS boundary in the spirit of holographic Wilsonian renormalization. We make explicit the map between Wilson loop reparametrizations and conformal transformation of the string worldsheet and show that a cutoff anchored to the worldsheet breaks conformal invariance and induces an effective defect action for reparametrizations at the cutoff scale, in a way similar to nearly-AdS 2 gravity or SYK models. On the other hand, a cutoff in the target space breaks worldsheet diffeomorphisms and Weyl transformations but keeps conformal transformations unbroken and does not generate a non-trivial action for reparametrizations.

Published

2022

6. Flavored anisotropic black holes

Author

Ana Garbayo, Carlos Hoyos, Niko Jokela, José Manuel Penín, and Alfonso V. Ramallo

Subjects

AdS-CFT Correspondence, D-Branes, Gauge-Gravity Correspondence, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract We construct a black hole geometry dual to a (2+1)-dimensional defect in an ambient (3+1)-dimensional gauge theory at non-zero temperature and quark density. The geometry is a solution to the equations of motion of type IIB supergravity with brane sources, a low energy limit of an intersection of stacks of color D3-branes and flavor D5-branes. We consider the case in which the number of D5-branes is large and they can be homogeneously distributed along the directions orthogonal to the defect, creating in this way a multilayer structure. The quark density is generated by exciting a gauge field in the worldvolume of the dynamic brane sources. We study the thermodynamics of the anisotropic black hole and compute the energy density of the dual theory, as well as the pressures and speeds of sound along the directions parallel and orthogonal to the defect. We also calculate transport coefficients in the shear channel, quark-antiquark potentials, and the entanglement entropies for slab subregions. These analyses give us a good overview on how the degrees of freedom are spread, entangled, and behave in this unquenched system in the deconfining phase at strong coupling.

Published

2022

7. Risking your NEC

Author

Carlos Hoyos, Niko Jokela, José Manuel Penín, Alfonso V. Ramallo, and Javier Tarrío

Subjects

AdS-CFT Correspondence, D-branes, Gauge-gravity correspondence, Holography and condensed matter physics (AdS/CMT), Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract Energy conditions, especially the null energy condition (NEC), are generically imposed on solutions to retain a physically sensible classical field theory and they also play an important role in the AdS/CFT duality. Using this duality, we study non-trivially deformed strongly coupled quantum field theories at large-N c . The corresponding dual classical gravity constructions entail the use of radially non-monotonic D-brane distributions. The distributions are phenomenological in the sense that they do not correspond to the smearing of known probe D-brane embeddings. The gravity backgrounds are supersymmetric and hence perturbatively stable, and do not possess curvature singularities. There are no short-cuts through the bulk spacetime for signal propagation which assures that the field theory duals are causal. Nevertheless, some of our solutions violate the NEC in the gravity dual. In these cases the non-monotonicity of the D-brane distributions is reflected in the properties of the renormalization group flow: none of the c-functions proposed in the literature are monotonic. This further suggests that the non-monotonic behavior of the c-functions within previously known anisotropic backgrounds does not originate from the breaking of Lorentz invariance. We surmise that NEC violations induced by quantum corrections also need to be considered in holographic duals, but can be studied already at the classical level.

Published

2021

8. Multiple mass hierarchies from complex fixed point collisions

Author

Antón F. Faedo, Carlos Hoyos, David Mateos, and Javier G. Subils

Subjects

Gauge-gravity correspondence, Renormalization Group, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract A pair of complex-conjugate fixed points that lie close to the real axis generates a large mass hierarchy in the real renormalization group flow that passes in between them. We show that pairs of complex fixed points that are close to the real axis and to one another generate multiple hierarchies, some of which can be parametrically enhanced. We illustrate this effect at weak coupling with field-theory examples, and at strong coupling using holography. We also construct complex flows between complex fixed points, including flows that violate the c-theorem.

Published

2021

9. Gravitational waves from a holographic phase transition

Author

Fëanor Reuben Ares, Mark Hindmarsh, Carlos Hoyos, and Niko Jokela

Subjects

Gauge-gravity correspondence, Cosmology of Theories beyond the SM, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract We investigate first order phase transitions in a holographic setting of five-dimensional Einstein gravity coupled to a scalar field, constructing phase diagrams of the dual field theory at finite temperature. We scan over the two-dimensional parameter space of a simple bottom-up model and map out important quantities for the phase transition: the region where first order phase transitions take place; the latent heat, the transition strength parameter α, and the stiffness. We find that α is generically in the range 0.1 to 0.3, and is strongly correlated with the stiffness (the square of the sound speed in a barotropic fluid). Using the LISA Cosmology Working Group gravitational wave power spectrum model corrected for kinetic energy suppression at large α and non-conformal stiffness, we outline the observational prospects at the future space-based detectors LISA and TianQin. A TeV-scale hidden sector with a phase transition described by the model could be observable at both detectors.

Published

2021

10. Holographic Wilsonian renormalization of a heavy quark moving through a strongly coupled plasma

Author

Diego Gutiez and Carlos Hoyos

Subjects

Gauge-gravity correspondence, AdS-CFT Correspondence, Holography and quark-gluon plasmas, Wilson, ’t Hooft and Polyakov loops, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract A heavy quark moving through a strongly coupled deconfined plasma has a holographic dual description as a string moving in a black brane geometry. We apply the holographic Wilsonian renormalization method to derive a holographic effective string action dual to the heavy quark. The effective action only depends on the geometry between the black brane horizon and a cutoff localized in the radial direction, corresponding to the IR of the dual theory. We derive RG flow equations for the coefficients in the effective action and show that the force acting on the heavy quark is independent of the position of the cutoff. All the information about the UV is hidden in integration constants of the RG flow equations. This type of approach could be used to improve semi-holographic models where the UV is described by perturbative QCD and the IR by a holographic model.

Published

2020

11. Holographic spontaneous anisotropy

Author

Carlos Hoyos, Niko Jokela, José Manuel Penín, and Alfonso V. Ramallo

Subjects

AdS-CFT Correspondence, D-branes, Gauge-gravity correspondence, Holography and condensed matter physics (AdS/CMT), Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract We construct a family of holographic duals to anisotropic states in a strongly coupled gauge theory. On the field theory side the anisotropy is generated by giving a vacuum expectation value to a dimension three operator. We obtain our gravity duals by considering the geometry corresponding to the intersection of D3- and D5- branes along 2+1 dimensions. Our backgrounds are supersymmetric and solve the fully backreacted equations of motion of ten-dimensional supergravity with smeared D5-brane sources. In all cases the geometry flows to AdS 5 × 𝕊5 in the UV, signaling an isotropic UV fixed point of the dual field theory. In the IR, depending on the parameters of the solution, we find two possible behaviors: an isotropic fixed point or a geometry with anisotropic Lifshitz-like scaling symmetry. We study several properties of the solutions, including the entanglement entropy of strips. We show that any natural extension of existing c-functions will display non-monotonic behavior, conforming with the presence of new degrees of freedom only at intermediate regions between the boundary and the origin of the holographic dual.

Published

2020

12. Space-Dependent Symmetries and Fractons

Author

Kevin T. Grosvenor, Carlos Hoyos, Francisco Peña-Benítez, and Piotr Surówka

Subjects

fractons, spacetime symmetries, elasticity, effective field theories, tensor gauge fields, Physics, QC1-999

Abstract

There has been a surge of interest in effective non-Lorentzian theories of excitations with restricted mobility, known as fractons. Examples include defects in elastic materials, vortex lattices or spin liquids. In the effective theory novel coordinate-dependent symmetries emerge that shape the properties of fractons. In this review we will discuss these symmetries, cover the effective description of gapless fractons via elastic duality, and discuss their hydrodynamics.

Published

2022

13. Brane nucleation instabilities in non-AdS/non-CFT

Author

Oscar Henriksson, Carlos Hoyos, and Niko Jokela

Subjects

D-branes, Gauge-gravity correspondence, Spontaneous Symmetry Breaking, Phase Diagram of QCD, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract We speculate that the weak gravity conjecture applied to theories with holographic duals bans the existence of disordered phases at zero temperature. We test this idea by introducing a non-zero baryon chemical potential in a deformation of the SU(N c ) × SU(N c ) Klebanov-Witten gauge theory with broken supersymmetry and conformal invariance. At low temperature, a disordered phase dual to a black brane geometry is unstable for low chemical potentials and metastable for high values. In the metastable phase, states with a partial Higgsing of the gauge group are favored over the normal disordered phase. This is reflected in the properties of the effective potential for color branes in the dual geometry, where the appearance of a global minimum outside the horizon signals the onset of a brane nucleation instability. When the Higgsing involves only one of the group factors, the global minimum remains at a finite distance from the horizon, making it possible to construct holographic duals to metastable “color superconducting” states. We also consider branes dual to excitations with baryon charge, but find that the extremal geometry remains marginally stable against the emission of particles carrying baryon charge independently of the strength of the deformation.

Published

2020

14. Resistencia antibiótica: el papel del hombre, los animales y el medio ambiente

Author

RONIELD ELIAS FERNANDEZ RODRIGUEZ, HERNANDO BOLIVAR-ANILLO, CARLOS HOYOS TURCIOS, LAURA CARRILLO GARCIA, MARIA SERRANO HERNANDEZ, and EZZANAD ABDELLAH

Subjects

resistencia bacteriana, antibióticos, genes de resistencia antibiótica, Medicine, Nursing, RT1-120, Public aspects of medicine, RA1-1270

Abstract

Los microorganismos, especialmente las bacterias, están distribuidos por todo el mundo, desde el suelo, los mares y los ríos hasta el sistema digestivo de los animales y los seres humanos; por lo tanto, las bacterias mantienen una interacción constante con los compuestos utilizados por los seres humanos y los animales como los antibióticos, y con otros microorganismos que pueden ser de la misma especie o de diferentes géneros taxonómicos; esta interacción podría dar lugar a una presión selectiva sobre las bacterias en el medio ambiente y promover el intercambio de material genético, lo que llevaría a una propagación global de la resistencia a los antibióticos y a una afectación mundial de la salud. En este contexto, esta revisión tiene por objeto ofrecer una visión general del papel de los seres humanos, los animales y el medio ambiente en la resistencia bacteriana, con énfasis en los procesos en el suelo y los medios acuáticos y los efectos sobre la salud humana.

Published

2020

15. Novel color superconducting phases of N $$ \mathcal{N} $$ = 4 super Yang-Mills at strong coupling

Author

Oscar Henriksson, Carlos Hoyos, and Niko Jokela

Subjects

D-branes, Gauge-gravity correspondence, Spontaneous Symmetry Breaking, Holography and quark-gluon plasmas, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract We revisit the large-N c phase diagram of N $$ \mathcal{N} $$ = 4 super Yang-Mills theory at finite R-charge density and strong coupling, by means of the AdS/CFT correspondence. We conjecture new phases that result from a black hole shedding some of its charge through the nucleation of probe color D3-branes that remain at a finite distance from the black hole when the dual field theory lives on a sphere. In the corresponding ground states the color group is partially Higgsed, so these phases can be identified as having a type of color superconductivity. The new phases would appear at intermediate values of the R-charge chemical potential and we expect them to be metastable but long-lived in the large-N c limit.

Published

2019

16. Hall viscosity in a strongly coupled magnetized plasma

Author

Carlos Hoyos, Francisco Peña-Benitez, and Piotr Witkowski

Subjects

Holography and condensed matter physics (AdS/CMT), Effective Field Theories, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract We show how a Hall viscosity induced by a magnetic field can be generated in strongly coupled theories with a holographic dual. This is achieved by considering parity-breaking higher derivative terms in the gravity dual. These terms couple the Riemann curvature tensor to the field strength of a gauge field dual to the charge current, and have an analog in the field theory side as a coupling between the “Euler current” and the electromagnetic field. As a concrete example, we study the effect of the new terms in the thermodynamic and transport properties of a strongly coupled magnetized plasma dual to a dyonic black hole in AdS 4. As a new property of the holographic model, we find that for a state that is initially neutral at zero magnetic field, a charge density and non-dissipative Hall transport are present when the magnetic field is turned on. Remarkably, we also observe that the results from the holographic model are consistent with hydrodynamics even at magnetic fields much larger than temperature.

Published

2019

17. Effective long distance q q ¯ $$ q\overline{q} $$ potential in holographic RG flows

Author

Jorge Casalderrey-Solana, Diego Gutiez, and Carlos Hoyos

Subjects

Gauge-gravity correspondence, Wilson, ’t Hooft and Polyakov loops, Effective Field Theories, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract We study the q q ¯ $$ q\overline{q} $$ potential in strongly coupled non-conformal field theories with a non-trivial renormalization group flow via holography. We focus on the properties of this potential at an inter-quark separation L large compared to the characteristic scale of the field theory. These are determined by the leading order IR physics plus a series of corrections, sensitive to the properties of the RG-flow. To determine those corrections, we propose a general method applying holographic Wilsonian renormalization to a dual string. We apply this method to examine in detail two sets of examples, 3 + 1-dimensional theories with an RG flow ending in an IR fixed point; and theories that are confining in the IR, in particular, the Witten QCD and Klebanov-Strassler models. In both cases, we find corrections with a universal dependence on the inter-quark separation. When there is an IR fixed point, that correction decays as a power ∼ 1/L 4. We explain that dependence in terms of a double-trace deformation in a one-dimensional defect theory. For a confining theory, the decay is exponential ∼ e −M L , with M a scale of the order of the glueball mass. We interpret this correction using an effective flux tube description as produced by a background internal mode excitation induced by sources localized at the endpoints of the flux tube. We discuss how these results could be confronted with lattice QCD data to test whether the description of confinement via the gauge/gravity is qualitatively correct.

Published

2019

18. Holographic compact stars meet gravitational wave constraints

Author

Eemeli Annala, Christian Ecker, Carlos Hoyos, Niko Jokela, David Rodríguez Fernández, and Aleksi Vuorinen

Subjects

Holography and quark-gluon plasmas, Phase Diagram of QCD, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract We investigate a simple holographic model for cold and dense deconfined QCD matter consisting of three quark flavors. Varying the single free parameter of the model and utilizing a Chiral Effective Theory equation of state (EoS) for nuclear matter, we find four different compact star solutions: traditional neutron stars, strange quark stars, as well as two non-standard solutions we refer to as hybrid stars of the second and third kind (HS2 and HS3). The HS2s are composed of a nuclear matter core and a crust made of stable strange quark matter, while the HS3s have both a quark mantle and a nuclear crust on top of a nuclear matter core. For all types of stars constructed, we determine not only their mass-radius relations, but also tidal deformabilities, Love numbers, as well as moments of inertia and the mass distribution. We find that there exists a range of parameter values in our model, for which the novel hybrid stars have properties in very good agreement with all existing bounds on the stationary properties of compact stars. In particular, the tidal deformabilities of these solutions are smaller than those of ordinary neutron stars of the same mass, implying that they provide an excellent fit to the recent gravitational wave data GW170817 of LIGO and Virgo. The assumptions underlying the viability of the different star types, in particular those corresponding to absolutely stable quark matter, are finally discussed at some length.

Published

2018

19. A defect action for Wilson loops

Author

Carlos Hoyos

Subjects

Wilson, ’t Hooft and Polyakov loops, Effective Field Theories, Gauge-gravity correspondence, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract An effective action is proposed to compute the expectation value of Wilson loops in (S)U(N) gauge theories. The action consists of fermions localized on the loop and an Abelian gauge field that fixes the representation. The discussion is limited to weak coupling and Wilson loops in the fundamental representation extended along a smooth curve, but there are no restrictions on the matter content as long as the theory has a UV fixed point or it is conformal. For a circular Wilson loop it is found that the expectation value coincides at leading order with the exact result of the 1/2 BPS Wilson loop of N=4 $$ \mathcal{N}=4 $$ super Yang-Mills, which is determined by a solvable Gaussian matrix model.

Published

2018

20. Hydrodynamics of ideal fracton fluids

Author

Kevin T. Grosvenor, Carlos Hoyos, Francisco Peña-Benitez, and Piotr Surówka

Subjects

Physics, QC1-999

Abstract

Low-energy dynamics of many-body fracton excitations necessary to describe topological defects should be governed by a novel type of hydrodynamic theory. We use a Poisson bracket approach to systematically derive hydrodynamic equations from conservation laws of scalar theories with fracton excitations. We study three classes of theories. In the first class we introduce a general action for a scalar with a shift symmetry linear in the spatial coordinates, whereas the second one corresponds with a complex scalar, while the third class serves as a toy model for disclinations and dislocations propagating along the Burgers vector. We apply our construction to study hydrodynamic fluctuations around equilibrium states and derive the dispersion relations of hydrodynamic modes.

Published

2021

21. Stiff phases in strongly coupled gauge theories with holographic duals

Author

Christian Ecker, Carlos Hoyos, Niko Jokela, David Rodríguez Fernández, and Aleksi Vuorinen

Subjects

Gauge-gravity correspondence, Holography and quark-gluon plasmas, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract According to common lore, Equations of State of field theories with gravity duals tend to be soft, with speeds of sound either below or around the conformal value of υs=1/3 $$ {\upupsilon}_s=1/\sqrt{3} $$. This has important consequences in particular for the physics of compact stars, where the detection of two solar mass neutron stars has been shown to require very stiff equations of state. In this paper, we show that no speed limit exists for holographic models at finite density, explicitly constructing examples where the speed of sound becomes arbitrarily close to that of light. This opens up the possibility of building hybrid stars that contain quark matter obeying a holographic equation of state in their cores.

Published

2017

22. Knotted solutions for linear and nonlinear theories: Electromagnetism and fluid dynamics

Author

Daniel W.F. Alves, Carlos Hoyos, Horatiu Nastase, and Jacob Sonnenschein

Subjects

Physics, QC1-999

Abstract

We examine knotted solutions, the most simple of which is the “Hopfion”, from the point of view of relations between electromagnetism and ideal fluid dynamics. A map between fluid dynamics and electromagnetism works for initial conditions or for linear perturbations, allowing us to find new knotted fluid solutions. Knotted solutions are also found to be solutions of nonlinear generalizations of electromagnetism, and of quantum-corrected actions for electromagnetism coupled to other modes. For null configurations, electromagnetism can be described as a null pressureless fluid, for which we can find solutions from the knotted solutions of electromagnetism. We also map them to solutions of Euler's equations, obtained from a type of nonrelativistic reduction of the relativistic fluid equations.

Published

2017

23. Desarrollo Diseño y optimización de la estructura mecánica de un brazo robótico antropomórfico desarrollado con fines educativos

Author

Kevin Morales, Carlos Hoyos, and Jesús García-Caicedo

Subjects

brazo robótico, brazo antropomórfico, diseño mecánico, robótica educativa, Technology, Engineering (General). Civil engineering (General), TA1-2040

Abstract

En el siguiente artículo se presenta el diseño y construcción de la estructura mecánica de un brazo robótico antropomórfico de cuatro grados de libertad con fines didácticos. El proyecto inició con una fase de desarrollo de conceptos obteniendo seis propuestas diseñadas para satisfacer las necesidades del cliente. Posteriormente se realizó la selección del concepto a desarrollar tomando como referencia las especificaciones del producto. Para el concepto propuesto se llevaron a cabo siete fases de rediseño que permitieron alcanzar la propuesta de diseño definitiva. Específicamente, se realizaron sucesivas etapas de simulación para analizar la respuesta dinámica de la estructura bajo la aplicación de cargas a través del tiempo, observar el estado de esfuerzos aplicado a cada parte y redimensionar los eslabones considerando las limitaciones y especificaciones previamente definidas. Con los resultados obtenidos, se generó una estructura que cumple con las especificaciones de diseño establecidas inicialmente, tomando en consideración las limitantes relacionadas con los servomotores a emplear y la carga máxima a manipular. Por último, se muestra el modelo cinemático directo e inverso del brazo además del producto final desarrollado.

Published

2019

24. Histerectomía post-parto

Author

Hernando Sánchez Varela and Carlos Hoyos Cruz

Subjects

Gynecology and obstetrics, RG1-991

Abstract

Encontramos en un total de 88.621 partos atendidos de julio de 1952 a julio de 1985, 44 pacientes en quienes se practicó histerectomía post parto; de las cuales 36 posteriores a cesárea y 8 post parto espontáneo o intervenido por fórceps. La mayor frecuencia de edad fue hallada en el grupo de 30 a 40 años. El mayor número de casos en cuanto a paridad se encontró en multigestantes (36.36%). Histerectomía total fue realizada en 31 casos (70.45%). La mayor indicación de cesárea que terminó en histerectomía fue la Iterativa. Clasificamos las histerectomías en indicadas y electivas, las indicadas por hemorragia o infección representaron el 84%, sobresaliendo el acrctismo placentario, la ruptura y atonía uterina. Sólo se presentaron cinco casos de infección (endomiometritis). Histerectomías inmediatas que se realizaron dentro de las primeras 12 horas post parto o post cesárea significaron el 84%. La complicación post operatoria más frecuente fue le infección de herida quirúrgica y hemorragia intra abdominal. Se presentaron en esta revisión dos fallecimientos (4.54%) atribuyéndose la causa de muerte a hemorragia intra abdominal, sepsis y coagulopatía de consumo. Los hallazgos del presente estudio coinciden con otras publicaciones sobre el tema. El acretismo placentario y la atonía uterina son la primera indicación de histerectomía precedidos de cesárea o cesáreas anteriores, especialmente en los últimos cinco años; lo que nos lleva a considerar y revisar las indicaciones de cesárea y a revaluar el aforismo de cesárea anterior igual cesárea.

Published

1987

25. Revisiting the chiral effective action in holographic models

Author

Carlos Hoyos Badajoz, Daniel Logares, Niko Jokela, Department of Physics, and Helsinki Institute of Physics

Subjects

High Energy Physics - Theory, Nuclear Theory (nucl-th), High Energy Physics - Phenomenology, Symmetry, High Energy Physics - Phenomenology (hep-ph), Nuclear Theory, High Energy Physics - Theory (hep-th), Gauge boson, High Energy Physics::Lattice, FOS: Physical sciences, High Energy Physics::Experiment, Meson, 114 Physical sciences

Abstract

We obtain the pion decay constant and coefficients of fourth derivative terms in the chiral Lagrangian for massless quarks in the Witten-Sakai-Sugimoto model. We extract these quantities from the two-pion scattering amplitude, which we compute directly in the holographic dual through tree-level Witten diagrams. Identification of the low energy coefficients in the chiral action is subtle as their values will be shifted when the tower of massive vector bosons are integrated out. Indeed, by a direct comparison with the existing standard procedure of constructing the chiral action with radial modes in the gravity dual, we explicitly show that there are finite 't Hooft coupling corrections that have been missed. This suggests that past derivations of effective actions from holographic models may have to be revisited and future derivations more carefully considered., Comment: 34 pages, 3 figures; v2: published and revised version including now also discussion on vector-meson contributions, several added refs., and clarifications (conclusions unchanged)

Published

2023

26. Monopoles and confinement in three dimensions from holography

Author

Antón F. Faedo, Carlos Hoyos, and Javier G. Subils

Subjects

High Energy Physics - Theory, Nuclear and High Energy Physics, High Energy Physics - Theory (hep-th), FOS: Physical sciences

Abstract

We study the phase diagram of a confining three-dimensional $\mathcal{N}=1$ supersymmetric $\text{U}(N)\times\text{U}(N+M)$ theory with holographic dual corresponding to a known string theory solution. The theory possesses a global $\text{U}(1)$ symmetry under which magnetic monopoles are charged. We introduce both temperature and an external magnetic field for monopoles and find that there are deconfinement phase transitions as any of the two is increased, supporting monopole condensation as the possible mechanism for confinement. We find that the transition as the magnetic field is increased is second order, providing the first example in holographic duals of a deconfinement transition which is not first order. We also uncover a rich structure in the phase diagram, with a triple point and a critical point where a line of first order transitions end., 27 pages + appendices, 11 figures. Expansions available at https://subils.me/resources/poliakov-confinement-at-strong-coupling/

Published

2022

27. Gravitational Waves at Strong Coupling from an Effective Action

Author

Carlos Hoyos Badajoz, Fëanor Reuben Ares, Oscar Henriksson, Niko Jokela, Mark Hindmarsh, Department of Physics, and Helsinki Institute of Physics

Subjects

High Energy Physics - Theory, Cosmology and Nongalactic Astrophysics (astro-ph.CO), FOS: Physical sciences, General Physics and Astronomy, General Relativity and Quantum Cosmology (gr-qc), BUBBLE NUCLEATION, 114 Physical sciences, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), High Energy Physics - Theory (hep-th), ELECTROWEAK PHASE-TRANSITION, GAUGE-THEORIES, GROWTH, FALSE VACUUM, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Using a holographic derivation of a quantum effective action for a scalar operator at strong coupling, we compute quasi-equilibrium parameters relevant for the gravitational wave signal from a first order phase transition in a simple dual model. We discuss how the parameters of the phase transition vary with the effective number of degrees of freedom of the dual field theory. Our model can produce an observable signal at LISA if the critical temperature is around a TeV, in a parameter region where the field theory has an approximate conformal symmetry., Comment: 6 pages, 3 figures

Published

2022

28. Effective actions and bubble nucleation from holography

Author

Fëanor Reuben Ares, Oscar Henriksson, Mark Hindmarsh, Carlos Hoyos, Niko Jokela, Department of Physics, and Helsinki Institute of Physics

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology, Cosmology and Nongalactic Astrophysics (astro-ph.CO), High Energy Physics - Phenomenology (hep-ph), High Energy Physics - Theory (hep-th), FATE, FOS: Physical sciences, General Relativity and Quantum Cosmology (gr-qc), FALSE VACUUM, 114 Physical sciences, General Relativity and Quantum Cosmology, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We discuss the computation of the quantum effective action of strongly interacting field theories using holographic duality, and its use to determine quasi-equilibrium parameters of first order phase transitions relevant for gravitational wave production. A particularly simple holographic model is introduced, containing only the metric and a free massive scalar field. Despite the simplicity, the model contains a rich phase diagram, including first order phase transitions at non-zero temperature, due to various multi-trace deformations. We obtain the leading terms in the effective action from homogeneous black brane solutions in the gravity dual, and linearised perturbations around them. We then employ the effective action to construct bubble and domain wall solutions in the field theory side and study their properties. In particular, we show how the scaling of the effective action with the effective number of degrees of freedom of the quantum field theory determines the corresponding scaling of gravitational wave parameters., Comment: 40 pages, 17 figures

Published

2022

29. Surgical outcomes and factors associated with postoperative complications of colorectal cancer in a Colombian Caribbean population: Results from a regional referral hospital.

Author

Dagobeth, Edgar Ernesto Vergara, Rojas, Gian Alberto Núñez, Valdelamar, Juan Carlos Hoyos, Lozada‐Martínez, Ivan David, Causado, Amileth Suarez, and Narvaez‐Rojas, Alexis Rafael

Published

2023

30. Multiple mass hierarchies from complex fixed point collisions

Author

Javier G. Subils, Anton F. Faedo, Carlos Hoyos, and David Mateos

Subjects

Physics, Coupling, High Energy Physics - Theory, Nuclear and High Energy Physics, Mathematical analysis, Holography, Renormalization group flow, FOS: Physical sciences, QC770-798, Construct (python library), Fixed point, Gauge-gravity correspondence, law.invention, High Energy Physics - Theory (hep-th), law, Nuclear and particle physics. Atomic energy. Radioactivity, Strong coupling, Renormalization Group, Mass hierarchy, Complex plane

Abstract

A pair of complex-conjugate fixed points that lie close to the real axis generates a large mass hierarchy in the real renormalization group flow that passes in between them. We show that pairs of complex fixed points that are close to the real axis and to one another generate multiple hierarchies, some of which can be parametrically enhanced. We illustrate this effect at weak coupling with field-theory examples, and at strong coupling using holography. We also construct complex flows between complex fixed points, including flows that violate the $c$-theorem., 24 pages + appendices, 12 figures

Published

2021

31. Risking your NEC

Author

José Manuel Penín, Niko Jokela, Alfonso V. Ramallo, Javier Tarrio, Carlos Hoyos, Helsinki Institute of Physics, Department of Physics, and Particle Physics and Astrophysics

Subjects

High Energy Physics - Theory, Nuclear and High Energy Physics, Duality (optimization), QC770-798, Lorentz covariance, AdS-CFT Correspondence, 01 natural sciences, LIMIT, 114 Physical sciences, General Relativity and Quantum Cosmology, Gauge-gravity correspondence, NULL ENERGY CONDITION, RENORMALIZATION-GROUP, Theoretical physics, Nuclear and particle physics. Atomic energy. Radioactivity, 0103 physical sciences, Energy condition, FIELD-THEORIES, Quantum field theory, 010306 general physics, Physics, Spacetime, 010308 nuclear & particles physics, Computer Science::Information Retrieval, Classical field theory, METRICS, Holography and condensed matter physics (AdS/CMT), High Energy Physics - Phenomenology, AdS/CFT correspondence, D-branes, Gravitational singularity

Abstract

Energy conditions, especially the null energy condition (NEC), are generically imposed on solutions to retain a physically sensible classical field theory and they also play an important role in the AdS/CFT duality. Using this duality, we study non-trivially deformed strongly coupled quantum field theories at large-$N_c$. The corresponding dual classical gravity constructions entail the use of radially non-monotonic D-brane distributions. The gravity backgrounds are supersymmetric and hence perturbatively stable, and do not possess curvature singularities. There are no short-cuts through the bulk spacetime for signal propagation which assures that the field theory duals are causal. Nevertheless, some of our solutions violate the NEC in the gravity dual. In these cases the non-monotonicity of the D-brane distributions is reflected in the properties of the renormalization group flow: none of the $c$-functions proposed in the literature are monotonic. This further suggests that the non-monotonic behavior of the $c$-functions within previously known anisotropic backgrounds does not originate from the breaking of Lorentz invariance. We surmise that NEC violations induced by quantum corrections also need to be considered in holographic duals, but can be studied already at the classical level., Comment: 31 pages, 4 appendices, 9 figures

Published

2021

32. Brane nucleation instabilities in non-AdS/non-CFT

Author

Niko Jokela, Oscar Henriksson, Carlos Hoyos, Particle Physics and Astrophysics, Helsinki Institute of Physics, and Department of Physics

Subjects

High Energy Physics - Theory, Nuclear and High Energy Physics, FOS: Physical sciences, 114 Physical sciences, 01 natural sciences, Gauge-gravity correspondence, High Energy Physics::Theory, High Energy Physics - Phenomenology (hep-ph), Conformal symmetry, 0103 physical sciences, Brane cosmology, Black brane, lcsh:Nuclear and particle physics. Atomic energy. Radioactivity, Gauge theory, 010306 general physics, Mathematical physics, Physics, Quantum chromodynamics, 010308 nuclear & particles physics, Computer Science::Information Retrieval, High Energy Physics::Phenomenology, Charge (physics), HIGH-DENSITY, QCD, Spontaneous Symmetry Breaking, Baryon, High Energy Physics - Phenomenology, High Energy Physics - Theory (hep-th), D-branes, Phase Diagram of QCD, lcsh:QC770-798, Brane

Abstract

We speculate that the weak gravity conjecture applied to theories with holographic duals bans the existence of disordered phases at zero temperature. We test this idea by introducing a non-zero baryon chemical potential in a deformation of the $SU(N_c)\times SU(N_c)$ Klebanov-Witten gauge theory with broken supersymmetry and conformal invariance. At low temperature, a disordered phase dual to a black brane geometry is unstable for low chemical potentials and metastable for high values. In the metastable phase, states with a partial Higgsing of the gauge group are favored over the normal disordered phase. This is reflected in the properties of the effective potential for color branes in the dual geometry, where the appearance of a global minimum outside the horizon signals the onset of a brane nucleation instability. When the Higgsing involves only one of the group factors, the global minimum remains at a finite distance from the horizon, making it possible to construct holographic duals to metastable "color superconducting" states. We also consider branes dual to excitations with baryon charge, but find that the extremal geometry remains marginally stable against the emission of particles carrying baryon charge independently of the strength of the deformation., Comment: 41 pages, 8 figures; v2: Updated sec. 3.1, adding results on second branch of black brane solutions. Minor typos corrected and some references added

Published

2020

33. Scattering length in holographic confining theories

Author

Carlos Hoyos, Daniel Logares, Niko Jokela, Helsinki Institute of Physics, and Department of Physics

Subjects

High Energy Physics - Theory, Quantum chromodynamics, Physics, 010308 nuclear & particles physics, Scattering, Duality (optimization), Order (ring theory), FOS: Physical sciences, Scattering length, 114 Physical sciences, 01 natural sciences, Scattering amplitude, High Energy Physics - Phenomenology, Theoretical physics, High Energy Physics - Phenomenology (hep-ph), High Energy Physics - Theory (hep-th), 0103 physical sciences, Effective field theory, 010306 general physics, FIELD THEORIES, Mass gap

Abstract

The low-energy effective theory description of a confining theory, such as QCD, is constructed including local interactions between hadrons organized in a derivative expansion. This kind of approach also applies more generically to theories with a mass gap, once the relevant low energy degrees of freedom are identified. The strength of local interactions in the effective theory is determined by the low momentum expansion of scattering amplitudes, with the scattering length capturing the leading order. We compute the main contribution to the scattering length between two spin-zero particles in strongly coupled theories using the gauge/gravity duality. We study two different theories with a mass gap: a massive deformation of ${\cal N}=4$ super Yang-Mills theory (${\cal N}=1^*$) and a non-supersymmetric five-dimensional theory compactified on a circle. These cases have a different realization of the mass gap in the dual gravity description: the former is the well-known GPPZ singular solution and the latter a smooth $AdS_6$ soliton geometry. Despite disparate gravity duals, we find that the scattering lengths have strikingly similar functional dependences on the masses of the particles and on the conformal dimension of the operators that create them. This evinces universal behavior in the effective description of gapped strongly coupled theories beyond what is expected from symmetry considerations alone., Comment: 18 pages, 3 figures

Published

2020

34. Scattering length from holographic duality

Author

Niko Jokela, Carlos Hoyos, Daniel Logares, and Helsinki Institute of Physics

Subjects

High Energy Physics - Theory, Scalar (mathematics), FOS: Physical sciences, Duality (optimization), Scaling dimension, Computer Science::Digital Libraries, 114 Physical sciences, 01 natural sciences, Theoretical physics, Condensed Matter - Strongly Correlated Electrons, High Energy Physics - Phenomenology (hep-ph), High Energy Physics - Lattice, 0103 physical sciences, 010306 general physics, FIELD THEORIES, Condensed Matter - Statistical Mechanics, Physics, Elastic scattering, Statistical Mechanics (cond-mat.stat-mech), Strongly Correlated Electrons (cond-mat.str-el), Unitarity, 010308 nuclear & particles physics, Operator (physics), High Energy Physics - Lattice (hep-lat), Order (ring theory), Scattering length, High Energy Physics - Phenomenology, High Energy Physics - Theory (hep-th)

Abstract

Interesting theories with short range interactions include QCD in the hadronic phase and cold atom systems. The scattering length in two-to-two elastic scattering process captures the most elementary features of the interactions, such as whether they are attractive or repulsive. However, even this basic quantity is notoriously difficult to compute from first principles in strongly coupled theories. We present a method to compute the two-to-two amplitudes and the scattering length using the holographic duality. Our method is based on the identification of the residues of Green's functions in the gravity dual with the amplitudes in the field theory. To illustrate the method we compute a contribution to the scattering length in a hard wall model with a quartic potential and find a constraint on the scaling dimension of a scalar operator $��> d/4$. For $d< 4$ this is more stringent than the unitarity constraint and may be applicable to an extended family of large-$N$ theories with a discrete spectrum of massive states. We also argue that for scalar potentials with polynomial terms of order $K$, a constraint more restrictive than the unitarity bound will appear for $d, 17 pages, 4 figures

Published

2019

35. Boundary central charge from bulk odd viscosity: Chiral superfluids

Author

Sergej Moroz, Carlos Hoyos, and Omri Golan

Subjects

High Energy Physics - Theory, Condensed Matter - Mesoscale and Nanoscale Physics, Philosophy, European research, Condensed Matter - Superconductivity, 0103 physical sciences, 02 engineering and technology, 021001 nanoscience & nanotechnology, 010306 general physics, 0210 nano-technology, Condensed Matter - Quantum Gases, 01 natural sciences, Humanities

Abstract

We derive a low energy effective field theory for chiral superfluids, which accounts for both spontaneous symmetry breaking and fermionic ground-state topology. Using the theory, we show that the odd (or Hall) viscosity tensor, at small wave-vector, contains a dependence on the chiral central charge $c$ of the boundary degrees of freedom, as well as additional non-universal contributions. We identify related bulk observables which allow for a bulk measurement of $c$. In Galilean invariant superfluids, only the particle current and density responses to strain and electromagnetic fields are required. To complement our results, the effective theory is benchmarked against a perturbative computation within a canonical microscopic model., Comment: Main text: 5 pages, 1 figure. Appendices: 15 pages. v2: published version, added section IV, now 6 pages

Published

2019

36. Effective field theory of a vortex lattice in a bosonic superfluid

Author

Carlos Hoyos, Sergej Moroz, Dam Thanh Son, and Claudio Benzoni

Subjects

High Energy Physics - Theory, Physics, Condensed Matter - Superconductivity, FOS: Physical sciences, Elementary particle, lcsh:QC1-999, Vortex, ddc, Superfluidity, Superconductivity (cond-mat.supr-con), T-symmetry, High Energy Physics - Theory (hep-th), Quantum Gases (cond-mat.quant-gas), Quantum mechanics, Dispersion relation, Effective field theory, Spin connection, Condensed Matter - Quantum Gases, lcsh:Physics, Boson

Abstract

Using boson-vortex duality, we formulate a low-energy effective theory of a two-dimensional vortex lattice in a bosonic Galilean-invariant compressible superfluid. The excitation spectrum contains a gapped Kohn mode and an elliptically polarized Tkachenko mode that has quadratic dispersion relation at low momenta. External rotation breaks parity and time-reversal symmetries and gives rise to Hall responses. We extract the particle number current and stress tensor linear responses and investigate the relations between them that follow from Galilean symmetry. We argue that elementary particles and vortices do not couple to the spin connection which suggests that the Hall viscosity at zero frequency and momentum vanishes in a vortex lattice., Comment: v3: resubmitted to SciPost

Published

2018

37. Knotted solutions for linear and nonlinear theories: Electromagnetism and fluid dynamics

Author

Daniel W. F. Alves, Horatiu Nastase, Jacob Sonnenschein, Carlos Hoyos, Universidade Estadual Paulista (Unesp), Universidad de Oviedo, and Tel Aviv University

Subjects

High Energy Physics - Theory, Nuclear and High Energy Physics, FOS: Physical sciences, Perfect fluid, Pattern Formation and Solitons (nlin.PS), 01 natural sciences, symbols.namesake, Electromagnetism, 0103 physical sciences, Fluid dynamics, Boundary value problem, 010306 general physics, Mathematical Physics, Physics, 010308 nuclear & particles physics, Null (mathematics), Dynamics (mechanics), Fluid Dynamics (physics.flu-dyn), Mathematical Physics (math-ph), Physics - Fluid Dynamics, Physics::Classical Physics, Mathematics::Geometric Topology, Nonlinear Sciences - Pattern Formation and Solitons, lcsh:QC1-999, Nonlinear system, Classical mechanics, High Energy Physics - Theory (hep-th), Euler's formula, symbols, lcsh:Physics, Optics (physics.optics), Physics - Optics

Abstract

We examine knotted solutions, the most simple of which is the "Hopfion", from the point of view of relations between electromagnetism and ideal fluid dynamics. A map between fluid dynamics and electromagnetism works for initial conditions or for linear perturbations, allowing us to find new knotted fluid solutions. Knotted solutions are also found to to be solutions of nonlinear generalizations of electromagnetism, and of quantum-corrected actions for electromagnetism coupled to other modes. For null configurations, electromagnetism can be described as a null pressureless fluid, for which we can find solutions from the knotted solutions of electromagnetism. We also map them to solutions of Euler's equations, obtained from a type of nonrelativistic reduction of the relativistic fluid equations., 5 pages plus references; references added

Published

2017

38. Breaking the sound barrier in holography

Author

Aleksi Vuorinen, Carlos Hoyos, Niko Jokela, David Rodríguez Fernández, Department of Physics, and Helsinki Institute of Physics

Subjects

Physics, Equation of state, DIMENSIONS, 010308 nuclear & particles physics, Conformal field theory, Scalar (physics), Charged black hole, 01 natural sciences, QCD, 114 Physical sciences, PHYSICS, Strange matter, Theoretical physics, AdS/CFT correspondence, Conformal symmetry, Speed of sound, Quantum mechanics, 0103 physical sciences, SUPERGRAVITY, 010306 general physics, BLACK-HOLES, MATTER, COMPACT, STARS

Abstract

It has been conjectured that the speed of sound in holographic models with UV fixed points has an upper bound set by the value of the quantity in conformal field theory. If true, this would set stringent constraints for the presence of strongly coupled quark matter in the cores of physical neutron stars, as the existence of two-solar-mass stars appears to demand a very stiff equation of state. In this article, we present a family of counterexamples to the speed of sound conjecture, consisting of strongly coupled theories at finite density. The theories we consider include N = 4 super Yang-Mills at finite R-charge density and nonzero gaugino masses, while the holographic duals are Einstein-Maxwell theories with a minimally coupled scalar in a charged black hole geometry. We show that for a small breaking of conformal invariance, the speed of sound approaches the conformal value from above at large chemical potentials.

Published

2016

39. Ward identities and relations between conductivities and viscosities in holography

Author

Carlos Hoyos and David Rodríguez Fernández

Subjects

High Energy Physics - Theory, Physics, Nuclear and High Energy Physics, 010308 nuclear & particles physics, Probability current, Ode, Holography, FOS: Physical sciences, Parity (physics), 01 natural sciences, law.invention, Renormalization, Theoretical physics, AdS/CFT correspondence, High Energy Physics - Theory (hep-th), law, 0103 physical sciences, 010306 general physics

Abstract

We derive relations between viscosities and momentum conductivity in $2+1$ dimensions by finding a generalization of holographic Ward identities for the energy-momentum tensor. The generalization is novel in the sense that it goes beyond the usual identities obtained from holographic renormalization. Our results are consistent with previous field theory analysis. The main tools we use are a constant `probability current' in the gravity dual, that we are able to define for any system of linear ODEs, and parity symmetry., Comment: 38 pages, to be published in JHEP

Published

2016

40. Diseño de un sistema biométrico de identificación usando sensores capacitivos para huellas dactilares

Author

Carlos Andrés Madrigal González, Jaime León Ramírez Madrigal, Juan Carlos Hoyos Arbeláe, and David Stephen Fernánde

Subjects

lcsh:T, lcsh:TA1-2040, lcsh:Engineering (General). Civil engineering (General), lcsh:Technology

Published

2007

41. Ward identities for transport in 2+1 dimensions

Author

Yaron Oz, Carlos Hoyos, and Bom Soo Kim

Subjects

Physics, High Energy Physics - Theory, Nuclear and High Energy Physics, Strongly Correlated Electrons (cond-mat.str-el), FOS: Physical sciences, Charged black hole, Invariant (physics), Galilean, Magnetic field, Linear map, Condensed Matter - Strongly Correlated Electrons, Classical mechanics, High Energy Physics - Theory (hep-th), Compressibility, Effective field theory, Mathematical physics

Abstract

We use the Ward identities corresponding to general linear transformations, and derive relations between transport coefficients of $(2+1)$-dimensional systems. Our analysis includes relativistic and Galilean invariant systems, as well as systems without boost invariance such as Lifshitz theories. We consider translation invariant, as well as broken translation invariant cases, and include an external magnetic field. Our results agree with effective theory relations of incompressible Hall fluid, and with holographic calculations in a magnetically charged black hole background., 17 pages, references and conclusions added. Published version

Published

2015

42. New knotted solutions of Maxwell's equations

Author

Carlos Hoyos, Nilanjan Sircar, and Jacob Sonnenschein

Subjects

Statistics and Probability, Electromagnetic field, Physics, High Energy Physics - Theory, Classical Physics (physics.class-ph), FOS: Physical sciences, General Physics and Astronomy, Statistical and Nonlinear Physics, Conformal map, Charge (physics), Mathematical Physics (math-ph), Physics - Classical Physics, Conformal group, symbols.namesake, High Energy Physics - Theory (hep-th), Maxwell's equations, Modeling and Simulation, symbols, Covariant transformation, Gauge theory, Special unitary group, Mathematical Physics, Optics (physics.optics), Mathematical physics, Physics - Optics

Abstract

In this note we have further developed the study of topologically non-trivial solutions of vacuum electrodynamics. We have discovered a novel method of generating such solutions by applying conformal transformations with complex parameters on known solutions expressed in terms of Bateman's variables. This has enabled us to get a wide class of solutions from the basic configuration like constant electromagnetic fields and plane-waves. We have introduced a covariant formulation of the Bateman's construction and discussed the conserved charges associated with the conformal group as well as a set of four types of conserved helicities. We have also given a formulation in terms of quaternions. This led to a simple map between the electromagnetic knotted and linked solutions into flat connections of $SU(2)$ gauge theory. We have computed the corresponding CS charge in a class of solutions and it takes integer values., version accepted for publication in J. Phys. A. minor changes: references added, new figure added, typos corrected

Published

2015

43. Galilean invariance at quantum Hall edge

Author

Carlos Hoyos, Leo Radzihovsky, and Sergej Moroz

Subjects

Physics, High Energy Physics - Theory, Strongly Correlated Electrons (cond-mat.str-el), Galilean invariance, Condensed Matter - Mesoscale and Nanoscale Physics, 010308 nuclear & particles physics, FOS: Physical sciences, Edge (geometry), Quantum Hall effect, Condensed Matter Physics, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, 01 natural sciences, Electronic, Optical and Magnetic Materials, Viscosity, Condensed Matter - Strongly Correlated Electrons, High Energy Physics - Theory (hep-th), Hall effect, Quantum mechanics, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), 0103 physical sciences, 010306 general physics

Abstract

We construct the theory of a chiral Luttinger liquid that lives on the boundary of a Galilean invariant quantum Hall fluid. In contrast to previous studies, Galilean invariance of the total (bulk plus edge) theory is guaranteed. We consider electromagnetic response at the edge and calculate momentum- and frequency-dependent electric conductivity and argue that its experimental measurement can provide a new means to determine the shift and bulk Hall viscosity., 9 pages, 3 figures, typos corrected, published version

Published

2015

44. The HST/ACS Coma Cluster Survey - X. Nuclear star clusters in low-mass early-type galaxies: scaling relations

Author

Marc Balcells, Shardha Jogee, Edwin A. Valentijn, Alister W. Graham, John R. Lucey, Gijs Verdoes Kleijn, Anil C. Seth, Reynier F. Peletier, Henry C. Ferguson, Paul Goudfrooij, Mark den Brok, Rafael Guzman, Peter Erwin, Steven Phillipps, Lilian Dominguez, Tim Weinzirl, Carlos Hoyos, David Carter, Thomas H. Puzia, and Astronomy

Subjects

endocrine system, Intergalactic star, FOS: Physical sciences, DWARF ELLIPTIC GALAXIES, Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, KINEMATIC PROPERTIES, STRUCTURAL PARAMETERS, SUPERMASSIVE BLACK-HOLES, GLOBULAR-CLUSTERS, Coma Cluster, Astrophysics::Solar and Stellar Astrophysics, star clusters: general. [Galaxies], Galaxy cluster, Astrophysics::Galaxy Astrophysics, QB, Luminous infrared galaxy, Physics, Astronomy, Astronomy and Astrophysics, galaxies: dwarf, HUBBLE-SPACE-TELESCOPE, VIRGO CLUSTER, Astrophysics - Astrophysics of Galaxies, Dwarf spheroidal galaxy, dwarf [Galaxies], HOST GALAXIES, Star cluster, Space and Planetary Science, Astrophysics of Galaxies (astro-ph.GA), Globular cluster, nuclei [Galaxies], galaxies: star clusters: general, Elliptical galaxy, MILKY-WAY, Astrophysics::Earth and Planetary Astrophysics, galaxies: nuclei, SPIRAL GALAXIES

Abstract

We present scaling relations between structural properties of nuclear star clusters and their host galaxies for a sample of early-type dwarf galaxies observed as part of the Hubble Space Telescope (HST) Advanced Camera for Surveys (ACS) Coma Cluster Survey. We have analysed the light profiles of 200 early-type dwarf galaxies in the magnitude range $16.0 < m_{F814W} < 22.6 $ mag, corresponding to $-19.0 < M_{F814W} < -12.4 $ mag. Nuclear star clusters are detected in 80% of the galaxies, thus doubling the sample of HST-observed early-type dwarf galaxies with nuclear star clusters. \changed{We confirm that the} nuclear star cluster detection fraction decreases strongly toward faint magnitudes. The luminosities of nuclear star clusters do not scale linearly with host galaxy luminosity. A linear fit yields L$_{nuc} \sim $L$_{gal}^{0.57\pm0.05}$. The nuclear star cluster-host galaxy luminosity scaling relation for low-mass early-type dwarf galaxies is consistent with formation by globular cluster accretion. We find that at similar luminosities, galaxies with higher S��rsic indices have slightly more luminous nuclear star clusters. Rounder galaxies have on average more luminous clusters. Some of the nuclear star clusters are resolved, despite the distance of Coma. We argue that the relation between nuclear star cluster mass and size is consistent with both formation by globular cluster accretion and in situ formation. Our data are consistent with GC inspiraling being the dominant mechanism at low masses, although the observed trend with S��rsic index suggests that in situ star formation is an important second order effect., Accepted for publication in MNRAS

Published

2014

45. Ward Identities for Hall Transport

Author

Bom Soo Kim, Yaron Oz, and Carlos Hoyos

Subjects

Physics, High Energy Physics - Theory, Nuclear and High Energy Physics, Angular momentum, Strongly Correlated Electrons (cond-mat.str-el), Zero (complex analysis), FOS: Physical sciences, Conformal map, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Hall conductivity, Magnetic field, Condensed Matter - Strongly Correlated Electrons, High Energy Physics - Theory (hep-th), Drag, Quantum field theory, Special case, Mathematical physics

Abstract

We derive quantum field theory Ward identities based on linear area preserving and conformal transformations in 2+1 dimensions. The identities relate Hall viscosities, Hall conductivities and the angular momentum. They apply both for relativistic and non relativistic systems, at zero and at finite temperature. We consider systems with or without translation invariance, and introduce an external magnetic field and viscous drag terms. A special case of the identities yields the well known relation between the Hall conductivity and half the angular momentum density., 35 pages, 1 figure, minor changes. Published version

Published

2014

46. Superfluid Kubo formulas from partition function

Author

Shira Chapman, Carlos Hoyos, and Yaron Oz

Subjects

Physics, High Energy Physics - Theory, Partition function (quantum field theory), Normal fluid, Nuclear and High Energy Physics, Condensed Matter - Superconductivity, FOS: Physical sciences, Global symmetry, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Superfluidity, Superconductivity (cond-mat.supr-con), Thermal transport, High Energy Physics - Theory (hep-th), Fluid dynamics, Tensor, Algebraic number, Mathematical physics

Abstract

Linear response theory relates hydrodynamic transport coefficients to equilibrium retarded correlation functions of the stress-energy tensor and global symmetry currents in terms of Kubo formulas. Some of these transport coefficients are non-dissipative and affect the fluid dynamics at equilibrium. We present an algebraic framework for deriving Kubo formulas for such thermal transport coefficients by using the equilibrium partition function. We use the framework to derive Kubo formulas for all such transport coefficients of superfluids, as well as to rederive Kubo formulas for various normal fluid systems., 41 pages, 4 appendixes

Published

2014

47. Multiscale confining dynamics from holographic RG flows

Author

Daniel Elander, Anton F. Faedo, Carlos Hoyos, Maurizio Piai, and David Mateos

Subjects

Quantum chromodynamics, Physics, High Energy Physics - Theory, Nuclear and High Energy Physics, Scalar (mathematics), FOS: Physical sciences, Conformal map, Torus, Renormalization group, Lambda, High Energy Physics - Theory (hep-th), Bound state, Brane cosmology, Mathematical physics

Abstract

We consider renormalization group flows between conformal field theories in five (six) dimensions with a string (M-theory) dual. By compactifying on a circle (torus) with appropriate boundary conditions, we obtain continuous families of confining four-dimensional theories parametrized by the ratio $\Lambda_{\rm {\tiny flow}}/\Lambda_{\rm \tiny{QCD}}$, with $\Lambda_{\rm \tiny{flow}}$ the scale at which the flow between fixed points takes place and $\Lambda_{\rm \tiny{QCD}}$ the confinement scale. We construct the dual geometries explicitly and compute the spectrum of scalar bound states (glueballs). We find a `universal' subset of states common to all the models. We comment on the modifications of these models, and the corresponding fine-tuning, required for a parametrically light `dilaton' state to be present. We also comment on some aspects of these theories as probed by extended objects such as strings and branes., Comment: 52 pages, 16 figures, 2 tables. v2 matches published version

Published

2014

48. Stability conditions for spatially modulated phases

Author

Jacob Sonnenschein, Sophia K. Domokos, and Carlos Hoyos

Subjects

Superconductivity, Physics, Quantum chromodynamics, High Energy Physics - Theory, Nuclear and High Energy Physics, Stiffness, FOS: Physical sciences, Class (philosophy), Stress (mechanics), Stability conditions, Classical mechanics, High Energy Physics - Theory (hep-th), medicine, Minification, medicine.symptom, Energy (signal processing)

Abstract

We introduce a novel set of stability conditions for vacua with broken Lorentz symmetry. The first class of conditions require that the energy be minimized under small geometric deformations, which translates into requiring the positivity of a "stiffness" four-tensor. The second class of conditions requires that stress forces be restoring under small deformations. We then apply these conditions to examples of recently-discovered spatially modulated (or "striped") phases in holographic models of superconductors and high-density QCD. For backreacted solutions we find that the pressure condition is equivalent to thermodynamic stability. For probe solutions, however, these conditions are in conflict with the minimization of the free energy. This suggests that either the solutions are unstable or the definition of the free energy in the probe approximation must be revised for these solutions., 28 pages, 6 figures, references added

Published

2013

49. Deformation Constraints on Solitons and D-branes

Author

Jacob Sonnenschein, Carlos Hoyos, and Sophia K. Domokos

Subjects

Physics, High Energy Physics - Theory, Nuclear and High Energy Physics, FOS: Physical sciences, Deformation (meteorology), Gauge (firearms), Gravitation, Set (abstract data type), Theoretical physics, High Energy Physics::Theory, Hamiltonian constraint, High Energy Physics - Theory (hep-th), Homogeneous space, Brane cosmology, Soliton

Abstract

We derive a set of constraints on soliton solutions using geometric deformations, and transformations by internal symmetries with space-dependent parameters. We show that Derrick's theorem and a more complete set of constraints due to Manton are special cases of these deformation constraints (DC). We demonstrate also that known soliton solutions obey the DC, and extract novel results by applying the constraints to systems of D-branes, taking into account both Dirac-Born-Infeld and Wess-Zumino actions, and examining cases with and without D-brane gauge fields. We also determine a relation with the Hamiltonian constraint for gravitational systems, and discuss configurations of finite extent, like Wilson lines., 43 pages, 1 figure

Published

2013

50. Lifshitz Hydrodynamics

Author

Yaron Oz, Bom Soo Kim, and Carlos Hoyos

Subjects

Physics, High Energy Physics - Theory, Nuclear and High Energy Physics, Statistical Mechanics (cond-mat.stat-mech), Strongly Correlated Electrons (cond-mat.str-el), Transport coefficient, FOS: Physical sciences, Drude model, Symmetry (physics), Condensed Matter - Strongly Correlated Electrons, Classical mechanics, High Energy Physics - Theory (hep-th), Electrical resistivity and conductivity, Electric field, Dissipative system, Scaling, Quantum, Condensed Matter - Statistical Mechanics

Abstract

We construct the hydrodynamics of quantum critical points with Lifshitz scaling. There are new dissipative effects allowed by the lack of boost invariance. The formulation is applicable, in general, to any fluid with an explicit breaking of boost symmetry. We use a Drude model of a strange metal to study the physical effects of the new transport coefficient. It can be measured using electric fields with non-zero gradients, or via the heat production when an external force is turned on. Scaling arguments fix the resistivity to be linear in the temperature., 11 pages, 1 figure, acceleration term corrected

Published

2013