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Instituto Galego de Física de Altas Enerxías

Colloquia IGFAE

About

The series of IGFAE Colloquia is a common activity for all members of the institute. It provides a platform to remain updated on the topics of the different research lines of the institute and beyond. It is also a chance to foster interactions among the members of the institute.

Colloquia are talks reviewing research topics in a broad sense, and are meant to target an audience of non-specialists.

Agenda 2026

Agenda for the coming months.

Date available  | (Probably not available) | Date not available 

01
20th January, 2026 (10.00 am) - Vijay Balasubramanian (UPenn)
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Quantum chaos and the complexity of time evolution

Abstract: I will describe new ideas relating quantum chaos to the complexity of time evolution.  One approach treats physical time evolution as a quantum computation, and bounds the smallest quantum circuit that can simulate this evolution.  The second approach quantifies how ergodically and rapidly a quantum state explores the accessible part of the system’s Hilbert space.  I will illustrate how these measures separate integrable and chaotic quantum systems by considering examples including particles on group manifolds, spin chains, quantum billiards, and Random Matrix Theory.  I will end by describing an application of these methods to a conjecture that geometrizes complexity in quantum gravity.

02
February 2026 (no colloquium)
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03
3rd March 2026 - Germán Rodrigo (IFIC Valencia)
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Germán Rodrigo

Quantum Computing for Particle Physics: beyond theoretical boundaries

Abstract: High‑energy colliders such as the Large Hadron Collider (LHC) at CERN are inherently quantum machines, and so in the spirit of Richard Feynman’s original vision, natural candidates as testbeds for applications of Quantum Computing. Although a fully fledged quantum event generator for collider scattering remains a long‑term goal, there is growing interest in the particle physics community in exploiting recent advances in Quantum Computing.

Promising directions include Quantum Machine Learning for collider data analysis, faster and more precise evaluation of intricate multiloop Feynman integrals, quantum‑enhanced approaches to jet clustering and jet evolution, tracking, parton‑shower simulations, and many other emerging applications. In this colloquium, I will review key Quantum Computing applications in Particle Physics, with emphasis on theoretical predictions at high perturbative orders, and will discuss about future potential developments, particularly in the critical transition from the NISQ era to Fault-Tolerant Quantum Computing.

04
14th April 2026 - Licia Verde (Universitat de Barcelona)
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A tale of many H0

Abstract:

Despite its spectacular success, the standard  model of cosmology, the LCDM model, is ultimately phenomenological: it establishes a robust framework in which some fundamental issues remain unresolved. With observations becoming increasingly precise, it is reasonable to expect that “something\’s gotta give” and that the LCDM model will show some cracks. The Hubble tension — the discrepancy between the value of the Hubble parameter, when inferred as a global parameter of the standard cosmological model, and when measured directly in the late-time Universe from the redshift-to-distance relation — has been looming for a decade and has been studied extensively. Could it be such a crack?  I will give an overview of the status of the Hubble tension and tentatively speculate on why it has persisted thus far.

Biography

Licia Verde is an astrophysicist with interest in cosmology. Her research topics include theoretical cosmology, cosmic microwave background, large-scale structure, galaxy clusters, statistical applications and data analysis. She is also interested in the study of large-scale structure of the Universe and in the analysis of galaxy surveys. She is currently ICREA Professor at the Institut de Ciències del Cosmos at the Universitat de Barcelona (ICCUB)

05
27th May 2026 - Jaime Álvarez Muñiz (IGFAE)
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Opening a New Window on the Extreme Universe with HERON

Ultra-high energy neutrinos are among the most elusive and informative messengers in the Universe. Produced in the same extreme environments that accelerate cosmic rays to energies far beyond those achievable on Earth, they travel vast cosmic distances undeflected by magnetic fields and largely unimpeded by matter or radiation. Detecting them would open a new window on the most energetic phenomena in nature and complete the picture of multi-messenger astronomy.

In this colloquium, I will discuss the scientific motivation for exploring the ultra-high energy neutrino sky, the challenges involved in detecting these extraordinarily rare particles, and the opportunities they offer for identifying the sources of the highest-energy cosmic rays. I will also present the concept of the Hybrid Elevated Radio Observatory for Neutrinos (HERON), a next-generation instrument designed to achieve an order-of-magnitude improvement in sensitivity, sub-degree angular resolution, and wide sky coverage, enabling discovery potential beyond current observatories.

06
11June 2026 - Glen Cowan (Royal Holloway, U. London) & Eddie Lee (Complexity Science Hub)
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Glen Cowan – An Overflight of Statistical Methods in High Energy Physics

Statistical methods have for many years played a crucial role in fundamental research such as High Energy Physics, and in the recent Big Data era their importance has continued to increase. I will give a bird’s-eye view of the most important tools used to compare theory and experiment in a way that extracts the maximum information from the hard-won data. The talk will touch on foundational questions of statistics and the scientific method, standard tools for used in searches for new phenomena, and the path to the future with modern methods from Machine Learning and Artificial Intelligence.

Eddie Lee – When physics meet life

What are complex systems and why do we care about them? The greatest open problems in physics are life at the mesoscale, an understanding of ourselves and the world in which we live. These include the ecosystems in which we are embedded to the higher-order complexities of global society, and such contemplation raises questions about ramifications of such a science and about the role of physicists in its development.
07
16th July 2026 - Deirdre Shoemaker (U. Texas, Austin)
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Listening to Black Holes: From Einstein’s Equations to Gravitational-Wave Astronomy

Einstein’s theory of general relativity transformed our understanding of space, time, and gravity. Among its most remarkable predictions were black holes and gravitational waves, ideas so extraordinary that even Einstein doubted some of their consequences. A century later, we can detect gravitational waves from colliding black holes across the Universe. But understanding these signals requires more than sophisticated detectors. It also requires solving Einstein’s equations in their full complexity using some of the world’s most powerful supercomputers. In this talk, I will explain how numerical simulations of black-hole mergers allow us to connect Einstein’s theory with modern observations, turning gravitational waves into a new tool for exploring the cosmos. This combination of theory, computation, and experiment has launched a new era in astronomy and revealed a Universe more dynamic and surprising than we ever imagined.

About Deirdre Shoemaker

She received her B.S. in Physics, Astronomy, and Astrophysics from the Pennsylvania State University and her Ph.D. in Physics from the University of Texas at Austin. She was a postdoctoral fellow at Penn State and Cornell University before joining the faculty at Penn State in 2004. She moved to the School of Physics at Georgia Tech in 2008 and to the Department of Physics at the University of Texas at Austin in 2020. She has won the NSF Career award, was part of the Breakthrough Prize given to the LIGO Scientific Collaboration, has served on the Astronomy and Astropysics Advisory Council, is a fellow of the American Physical Society, and has held several elected roles in APS DGRAV. She was instrumental in the formation of the newly rebooted LISA Consortium. Her current favorite activiity is being a member of the LISA Science Team.

08
August 2026 (holiday, not available)
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09
8th September 2026 - Mariano Quiros (IFAE, Barcelona)
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10
20th October 2026 - Gavin Salam (Oxford)
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11
3rd November 2026 - Diego Blas (IFAE, U. Autònoma Barcelona)
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12
December 2026
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12.00 10.00 11.30 12.00
Monday Tuesday Wednesday  Thursday
Week 49 1st 2nd 3rd
Week 50 7th 8th 9th 10th
Week 51 14th 15th 16th 17th
 Week 52 21st 22nd 23rd 24th

Speakers