Los ICREA

Los catedráticos de investigación de ICREA forman una comunidad dinámica de científicos e investigadores de todas las áreas del conocimiento, que contribuyen al progreso de la humanidad con sus estudios, interpretaciones y cuestionamientos. Entre y descubra sus increíbles descubrimientos y hallazgos:

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    Andrew Williams
    Williams, Andrew
    Research Professor at
    Universitat Pompeu Fabra (UPF)
    Humanities
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    Research interests

    My interests lie in moral and political philosophy and practical rationality, as well as intersecting areas in economics and political science. My research focuses in particular on questions about distributive justice, including ones arising across states and generations. I explore how egalitarian distributive principles should guide the design of social institutions that shape the prospects of children, parents, the elderly, and future generations. My most recent work examines how policy makers should deal with gender wage gaps and lifespan variations as well as the role that demographic factors should play in our response to climate change and the COVID-19 pandemic.

    Key words

    Political Philosophy, Ethics, Rational Action, Distributive Justice, International Ethics, Intergenerational Ethics, Demographic Change, Population Aging, Climate Change, Liberalism, Political Authority, John Rawls, Ronald Dworkin

    ORCID

    : orcid.org/0000-0001-7907-8991
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    Martina Wiltschko
    Wiltschko, Martina E.
    Research Professor at
    Universitat Pompeu Fabra (UPF)
    Humanities
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    Research interests

    My research explores the fundamental building blocks of human language, how languages differ in their realization, as well as how these building blocks relate to more general cognitive capacities. My empirical emphasis over the past 10 years has been the language found exclusively in interaction: i.e., aspects of language that serve to regulate the construction of common ground among interlocutors on the one hand and the dialogical interaction itself (e.g., turn-taking). I explore how interactional language compares with propositional language (i.e., the language of reference which allows for the construction of thought). My research clearly reveals that interactional language is as much part of our human-specific capacity for language as propositional language is. This suggests that language is equally important for the configration of thought as it is for the configuration of conversational interaction. Significantly, this finding helps to answer a classic question that has divided linguists for centuries: language is an instrument  for thought AND for communication. As such, interactional language is a unique and ideal window into the tacit and human-specific knowledge which defines our capacity for language both as an instrument for thought and a tool for communication. To this end, I now explore interactional language from a variety of different angles. i) its acquisition and how it relates to the acquisition of propositional language; ii) its use in populations with neuro-diverse profiles (aphasia, autism, etc.); iii) its relation and place in the architecture of the human mind (relation to theory of mind, construction of emotions, etc.); iv) its role in human-machine interaction. Thus, my research links to neighboring fields, including philosophy (referential semantics, pragmatics), sociology (conversation analysis), and psychology (theory of mind), and artificial intelligence.

    Key words

    theoretical syntax, syntax-pragmatics interface, language variation, field-work, categories, language of interaction, discourse markers

    ORCID

    : 0000-0003-4647-3033
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    Andreas Winter
    Winter, Andreas
    Research Professor at
    Universitat Autònoma de Barcelona (UAB)
    Experimental Sciences & Mathematics
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    Research interests

    I work on quantum information, especially quantum Shannon theory, which aims at incorporating information-theoretic ideas into physics. The Shannon theoretic approach has succeeded in quantifying entanglement as a resource in information processing task, and likewise for other properties of quantum systems such as channel and storage capacities of quantum systems. One of my favourite topics is the interplay between classical and quantum information, evident in the intricate structure of local operations in composite systems, such as data hiding or "information locking". I also work on additivity and non-additivity of quantum channel capacities, quantum data compression, and zero-error quantum communication. Further interests include statistical mechanics, thermodynamics, resource theories, entropy characterization and entanglement measures. But at heart I am a mathematician and will still get fascinated by classic problems: existence of Hadamard matrices, incompleteness, ...

    Key words

    quantum information, quantum theory, discrete mathematics, probability

    ORCID

    : orcid.org/0000-0001-6344-4870

    RESEARCHER ID

    : C-4185-2016
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    Andrea Wulzer
    Wulzer, Andrea
    Research Professor at
    Institut de Física d'Altes Energies (IFAE)
    Experimental Sciences & Mathematics
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    Research interests

    I am a particle physicist. My mission is to unveil the microscopic laws that govern the fundamental particles and their interactions. I study what these laws could be, and how they manifest as concrete predictions for a multitude of experimental measurements that are being and will be performed at particle colliders. Devising strategies to extract maximal information on fundamental physics laws from the data collected at the Large Hadron Collider is a main focus of my research. Another goal is to identify new pathways for further progress at ambitious future collider projects and in particular at a muon collider of very high energy. I attack these questions by employing and developing theoretical tools for predictions based on the fundamental principles of quantum mechanics and special relativity, combined in what is known as "Quantum Field Theory", as well as statistical tools for comparing the predictions with the experimental data.

    Key words

    Beyond the Standard Model Theory and Phenomenology; Collider Physics;

    ORCID

    : 0000-0002-4523-1940

    RESEARCHER ID

    : GIK-5322-2022
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    Andriy Yaroshchuk
    Yaroshchuk, Andriy
    Research Professor at
    Universitat Politècnica de Catalunya (UPC)
    Experimental Sciences & Mathematics
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    Research interests

    The keyword is behaviour of fluids at nano-scale. I study the transfer of ions and water molecules through nano-metric (tens of nanometers) barrier layers of composite nanofiltration membranes. Another example is the transfer of ions and water through nano-porous track-etched membranes having identical cylindrical pores. I also study processes of current-induced concentration polarization of nano-/micro-interfaces where concentration polarization is strongly-coupled to electroosmosis and fine separation of solutes like peptides can occur. Recently, I discovered that a layered structure consisting of a micro-perforated ion-exchange membrane and a nanoporous layer can have very interesting properties useful for AC electroosmotic pumping . Another topic is experimental and theoretical studies of ion transfer across polyelectrolyte multilayers where we have recently discovered very high (>1000) selectivities in the electrically-driven transfer of ions of different charge magnitudes.The most recent research topic is energy harvesting from water evaporation. It has been suggested that the area of contact between nanoporous electrodes and electrolyte solutions can be effectively controlled via solvent (water) evaporation. This opens new opportunities for energy harvesting from waste heat in coupled wetting/drying and charging/discharging cycles with nanoporous electrodes. This emerging process is critically controlled by the ion dynamics in ultrathin water films staying behind receding menisci, which reveals itself as almost completely unexplored and as a focal point of a new branch of electrochemistry, namely that of partially wet electrodes.

    Key words

    nanofluidics, electrokinetics, electrochemistry, membrane, nanofiltration, colloid

    ORCID

    : 0000-0002-6364-6840

    RESEARCHER ID

    : L-5955-2014
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    Masaya Yoshida
    Yoshida, Masaya
    Research Professor at
    Universitat Autònoma de Barcelona (UAB)
    Humanities
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    Research interests

    Theories of sentence processing have been assuming syntactic structure building, or parsing, as one of the crucial components in the mechanism of sentence comprehension. In this view, upon receiving the bottom-up input (e.g., words), the comprehender builds a partial sentence structure, integrates each successive bottom-up input into the currently built partial parse, and achieves semantic representation. Thus, in the traditional views, it is expected that grammatical structural constraints constrain the time-course of online sentence comprehension. Many recent studies of sentence processing, on the other hand, have been suggesting that comprehenders do not necessarily build fully articulated grammatical structures, and achieving the meaning of the sentence is not always based on grammatical structures. Thus, these studies argue that psycholinguistic phenomena are to be explained with independent principles of cognitive processes, not with language-specific principles and mechanisms. Against this background, in the past five years, I have been investigating to what extent the process of online sentence comprehension is sensitive to grammatical structural constraints. 
    Specifically, I have been investigating the following empirical domains: Anaphora Resolution, Ellipsis resolution, and Agreement, from the perspective of both experimental psycholinguistics and formal syntax. The studies I have conducted have been showing that the mechanism of sentence processing builds rich and sophisticated hierarchical syntactic structures during online processing, and the time-course of online processing is tightly constrained by syntactic structural constraints.

    Key words

    Linguistics, Psycholinguistics, Syntax, Sentence Processing

    ORCID

    : 0000-0003-2857-4121