Study of the possible experimental detection of the Hawking effect in analogue gravity models.
A natural problem in group theory is: what can we say about a group in which all subgroups of a relevant family of subgroups satisfy a certain property? We intend to make contributions along these lines.
Electrolysed water generation, analysis, stability and application studies of electrolysed water.
When a factor group G=AB is considered as a product of two subgroups, related with certain permutability conditions, the natural question is to determine what we can say about G from the properties of A and B, and what we can say about A and B from properties of G.
The fathoms are associated to trifactor groups with structural properties that effectively determine solutions of the quantum Yang-Baxter equation.
Study of the differentiability of functions defined on open Banach spaces, in particular of the norm.
Study of composition operators and their relationship with the properties of the symbol that defines it. Special attention to the topological properties of the operators and to the metric properties whether of the natural norm of the space or the essential one. Interest in spectral properties.
Study of quantum phenomena where gravitation plays a fundamental role, such as in the vicinity of black holes or the very early universe.
Protection of the worker’s health and personal sphere outside the workplace.
Study objectives: improvements in the ckm matrix tests with the lhc results. clarification of the stresses in the b->s stresses in lhcb. Analysis of the model-independent quark flavour sector. Phenomenology of mfv models.
The associated phenomena of flavour-changing processes and CP symmetry violation have profound implications for our knowledge of the Universe and, in particular, are related to the observed large asymmetry between matter and antimatter.
Aims of study: Study of extended models with tau dipole moment. Properties of the dipole moments. Precise determination and how it can be measured at LHC. H/A interferometry of quasi-degenerate Higgs bosons with opposite CP. H/A mixing: CP violation effects.
Certain classes of groups are defined by the actions of the groups with regard to the main factors or other normal sections. Special importance is attached to subgroups that cover or avoid all the main factors of the group, as well as actions that determine flanges of special type.
Study of the properties of baryons and mesons by means of quark models and phenomenological interactions.
This line studies the interactions between hadrons and between hadrons and the nuclear medium, using effective theories, constructed from QCD symmetries, perturbative and non-perturbative methods. Special emphasis is given to topics related to the scientific programme of the FAIR laboratory.
Non-perturbative studies in QCD: QCD at low energies and sum rules. Non-perturbative QCD calculations in the lattice.
Study of hadron spectra and hadron-hadron interaction using potential models for the interaction between quarks. Relation of phenomenological results to Quantum Chromodynamics.
Study of the quark-quark interaction through the analysis of the hadron spectrum and its application to the search for exotic multi-quark states.
Study of the analytical applications between Banach spaces. Both their individual behaviour with respect to classes of sets, as well as the possible algebraic-topological structures that they may have as a set.
Modelling and characterisation of the dynamics of mode-locked lasers.
Advanced multi-antenna techniques in modern broadband wireless communication systems, Advanced cooperative MIMO transmission and reception, distributed optimization techniques for wireless communications, context-based information for vehicular communications, software defined radio.
Development of molecule and nanomaterial synthesis using solid-state microwaves.
Modeling exchange interactions in large magnetic clusters and low dimensional magnets: Determination of the Energy levels and magnetic properties; Study of the exchange interactions between orbitally degenerate centers. Crystal field interactions in single ion magnets for quantum computing. Double exchange and electron delocalization in molecular materials.
Modified gravity in the Palatini formalism and applications in cosmology and black holes.
Study objectives: possible structure of redshift and cosmic neutrinos. inclusion of sfermion mass effects in leptogenesis. Positron excess in the pamela/atic experiment and dark matter candidates. study objectives: non-perturbative contribution of the quark loop to the gluon propagator. Modifications to the dyson-schwinger equations due to the presence of QDC vacuum condensates finite energy sum rules and reanalysis of the b and d meson decay constants.
Development of strategies for more sustainable processes and products, in particular in the chemical, materials and food industries. It also includes dissemination and training in current aspects of bioeconomy, circular economy, climate change and life cycle analysis.
Modelling, simulation and experimental study of the non-linear dynamics of optical cavities and other systems, solitons and spatial patterns.
Dynamical evolution of classical and quantum systems, whose complexity does not allow precise knowledge of their evolution equations. Magnus developments and related perturbative expansions. Study of neutrino-nucleus cross sections used in neutrino oscillation experiments (MiniBooNE, T2K....).
Study of homogeneous nuclear matter with density-dependent effective interactions. Quantum clustering of fluids, mainly hydrogen and molecular helium by means of effective density functionals and Monte Carlo simulations.
Study of the magneto-structural properties of molecular materials using thermodynamic (ac and dc susceptibilities, magnetization measurements, specific heat), spectroscopic (ESR spectroscopy and Inelastic Neutron Scattering) and diffraction (single-crystal X-ray diffraction) techniques.
Preparation, characterisation and application studies of Covalent Organic Frameworks (COFs)
Analysis and interpretation of the structure and properties of baryons and glueballs from the perspective of constituent models supported by the theory of strong interactions at high energies, temperatures and densities.
Development of molecules and materials with the ability to modulate (activate or inhibit) the activity of proteins. In particular of the enzymes polyphenol oxidase and lipase/pancreatin.
Design and use of magnetic molecules as qubits (in particular magnetic polyoxometalates). Study and optimization of the quantum decoherence in molecular spin qubits : dipolar and hyperfine effects; modeling the phonon and molecular vibration effects. Scalability of spin qubits and design of quantum spin solids (magnetic MOFs).
Study of quantum fluctuations of light, in particular mechanisms that produce a squeezing of quantum noise below the shot noise level, as well as quantum entanglement.
Theoretical studies on quantum walks and proposed implementations in optical devices.
The LHC is specially designed to investigate the spontaneous breaking of the electroweak symmetry responsible for the generation of the masses of all particles. The theoretical consistency of the Standard Model requires the existence of a new scalar force field.
Study of nuclear responses to weak probes of intermediate energies: quasi-elastic peak region and the D(1232) resonance.
Development of sensors based on changes in optical or electrochemical properties, whether from molecules, materials or hybrid systems.
Targets of study: dark matter. Detection of wims by inelastic collision with nuclei. Shared leptonic asymmetry between leptons and sleptons may be relevant for leptogenesis. Phenomenology of supersymmetric models at LHC. Study of flavour theories in supersymmetry.
In the field of computer science, there has been a growing interest in the study of semigroups and monoids in relation to automata and formal languages. We aim to apply techniques from group theory and universal algebra to the analysis of these objects.
In recent years, groups where all subnormal subgroups are normal, permutable, or Sylow-permutable have been of interest, both in terms of finite groups and extensions to classes of infinite groups. We have also developed computational techniques to study these groups with GAP.
Study of supergravity, supersymmetry, space-time deformations and their consequences at low energies.
The top quark is the heaviest known elementary particle and plays a fundamental role in many extensions of the Standard Model. In a hadronic environment like the LHC it is essential to control the effects of the strong interaction (QCD), hence complex calculations in perturbation theory.
Requirement to keep working time records, socio-labour implications, productivity, accidents, working time, prevention of occupational risks, flexibility, teleworking, etc.