Your search keyword '"Valenzuela, Irene"' showing total 570 results

1. Tensionless String Limits in 4d Conformal Manifolds

Author

Calderón-Infante, José and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

Drawing on insights from the Swampland program, we initiate a classification of infinite distance limits in the conformal manifolds of 4d SCFTs. Each limit is characterized by a Hagedorn-like behavior of the large $N$ density of states, which we argue holographically correspond to different tensionless string limits. We focus on 4d large $N$ SCFTs with simple gauge groups, which exhibit an overall free limit at infinite distance within the conformal manifold. In this class of theories, only three types of weak-coupling limits arise. They are distinguished by the exponential rate $\alpha$ of the anomalous dimension of the higher-spin tower, which we find to be determined by the ratio of the central charges $a/c$. We compute the large $N$ partition function at the free point for all these SCFTs, and derive a universal expression for the Hagedorn temperature as a function of $\alpha$ (or, equivalently, of $a/c$), regardless of the gauge group or matter content. This Hagedorn-like density of states suggests that these weak-coupling limits correspond holographically to the tensionless limits of three different strings: the critical Type IIB string and two non-critical strings that arise exclusively in non-Einstein gravitational theories. Our findings are consistent with the Emergent String Conjecture when applied to theories with Einstein gravity at low energies. We also use our results to present a new argument for the absence of scale separation in the holographic AdS bulk dual of these 4d SCFTs. This argument is based on the existence of a bona fide 't Hooft limit, or equivalently, on satisfying the sharpened lower bound for the Distance Conjecture., Comment: 57 pages + appendices, 4 figures, 2 tables

Published

2024

2. On Measuring Distances in the Quantum Gravity Landscape

Author

Mohseni, Amineh, Montero, Miguel, Vafa, Cumrun, and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

In this note, we propose a generalized notion of distance between vacua in the theory of a scalar field $\phi$ with scalar potential $V(\phi)$ coupled to gravity. We propose the normalized tension of domain wall connecting different field values, with a varying normalization relative to a local energy scale, as the distance. We show this definition reproduces the usual moduli space distance for zero potential, as well as the $d\propto |\log \Lambda|$ behavior with the vacuum energy $\Lambda$ in the AdS case, previously proposed in the literature. In the case of large AdS we also obtain the expected exponent of mass versus distance in one particular case, when the mass of the light tower is $m\sim \sqrt \Lambda$ and there is a single extra dimension decompactifying. We also discuss the features and shortcomings of alternative but related proposals., Comment: 27 pages, 3 figures, typos corrected, references added

Published

2024

3. Taxonomy of Infinite Distance Limits

Author

Etheredge, Muldrow, Heidenreich, Ben, Rudelius, Tom, Ruiz, Ignacio, and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

The Emergent String Conjecture constrains the possible types of light towers in infinite-distance limits in quantum gravity moduli spaces. In this paper, we use these constraints to restrict the geometry of the scalar charge-to-mass vectors $(-\vec{\nabla}\log m)$ of the light towers and the analogous vector $(-\vec{\nabla}\log\Lambda_{\text{QG}})$ of the species scale. We derive taxonomic rules that these vectors must satisfy in each duality frame. Under certain assumptions, this allows us to classify the ways in which different duality frames can fit together globally in the moduli space in terms of a finite list of polytopes. Many of these polytopes arise in known string theory compactifications, while others suggest either undiscovered corners of the landscape or new swampland constraints., Comment: 69 pages plus appendices, 30 figures

Published

2024

4. On the Fate of Stringy Non-Invertible Symmetries

Author

Heckman, Jonathan J., McNamara, Jacob, Montero, Miguel, Sharon, Adar, Vafa, Cumrun, and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

Non-invertible symmetries in quantum field theory (QFT) generalize the familiar product rule of groups to a more general fusion rule. In many cases, gauged versions of these symmetries can be regarded as dual descriptions of invertible gauge symmetries. One may ask: are there any other types of non-invertible gauge symmetries? In theories with gravity we find a new form of non-invertible gauge symmetry that emerges in the limit of fundamental, tensionless strings. These stringy non-invertible gauge symmetries appear in standard examples such as non-abelian orbifolds. Moving away from the tensionless limit always breaks these symmetries. We also find that both the conventional form of non-invertible gauge symmetries and these stringy generalizations are realized in AdS/CFT. Although generically broken, approximate non-invertible symmetries have implications for Swampland constraints: in certain cases they can be used to prove the existence of towers of states related to the Distance Conjecture, and can sometimes explain the existence of slightly sub-extremal states which fill in the gaps in the sublattice Weak Gravity Conjecture., Comment: 56 pages, 11 figures

Published

2024

5. Expanded phenotypic spectrum of neurodevelopmental and neurodegenerative disorder Bryant-Li-Bhoj syndrome with 38 additional individuals

Author

Layo-Carris, Dana E., Lubin, Emily E., Sangree, Annabel K., Clark, Kelly J., Durham, Emily L., Gonzalez, Elizabeth M., Smith, Sarina, Angireddy, Rajesh, Wang, Xiao Min, Weiss, Erin, Toutain, Annick, Mendoza-Londono, Roberto, Dupuis, Lucie, Damseh, Nadirah, Velasco, Danita, Valenzuela, Irene, Codina-Solà, Marta, Ziats, Catherine, Have, Jaclyn, Clarkson, Katie, Steel, Dora, Kurian, Manju, Barwick, Katy, Carrasco, Diana, Dagli, Aditi I., Nowaczyk, M. J. M., Hančárová, Miroslava, Bendová, Šárka, Prchalova, Darina, Sedláček, Zdeněk, Baxová, Alica, Nowak, Catherine Bearce, Douglas, Jessica, Chung, Wendy K., Longo, Nicola, Platzer, Konrad, Klöckner, Chiara, Averdunk, Luisa, Wieczorek, Dagmar, Krey, Ilona, Zweier, Christiane, Reis, Andre, Balci, Tugce, Simon, Marleen, Kroes, Hester Y., Wiesener, Antje, Vasileiou, Georgia, Marinakis, Nikolaos M., Veltra, Danai, Sofocleous, Christalena, Kosma, Konstantina, Traeger Synodinos, Joanne, Voudris, Konstantinos A., Vuillaume, Marie-Laure, Gueguen, Paul, Derive, Nicolas, Colin, Estelle, Battault, Clarisse, Au, Billie, Delatycki, Martin, Wallis, Mathew, Gallacher, Lyndon, Majdoub, Fatma, Smal, Noor, Weckhuysen, Sarah, Schoonjans, An-Sofie, Kooy, R. Frank, Meuwissen, Marije, Cocanougher, Benjamin T., Taylor, Kathryn, Pizoli, Carolyn E., McDonald, Marie T., James, Philip, Roeder, Elizabeth R., Littlejohn, Rebecca, Borja, Nicholas A., Thorson, Willa, King, Kristine, Stoeva, Radka, Suerink, Manon, Nibbeling, Esther, Baskin, Stephanie, L. E. Guyader, Gwenaël, Kaplan, Julie, Muss, Candace, Carere, Deanna Alexis, Bhoj, Elizabeth J. K., and Bryant, Laura M.

Published

2024

6. Stringy Evidence for a Universal Pattern at Infinite Distance

Author

Castellano, Alberto, Ruiz, Ignacio, and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

Infinite distance limits in the moduli space of a quantum gravity theory are characterized by having infinite towers of states becoming light, as dictated by the Distance Conjecture in the Swampland program. These towers imply a drastic breakdown in the perturbative regimes of the effective field theory at a quantum gravity cut-off scale known as the species scale. In this paper, we find a universal pattern satisfied in all known infinite distance limits of string theory compactifications, which relates the variation in field space of the mass of the tower and the species scale: $\frac{\vec\nabla m}{m} \cdot\frac{\vec\nabla \Lambda_{\rm sp}}{ \Lambda_{\rm sp}}=\frac{1}{d-2}$ in $d$ spacetime dimensions. This implies a more precise definition of the Distance conjecture and sharp bounds for the exponential decay rates. We provide plethora of evidence in string theory and identify some sufficient conditions that allow the pattern to hold from a bottom-up perspective., Comment: 93 pages + appendices, 11 figures

Published

2023

7. A Universal Pattern in Quantum Gravity at Infinite Distance

Author

Castellano, Alberto, Ruiz, Ignacio, and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

Quantum gravitational effects become significant at a cut-off species scale that can be much lower than the Planck scale whenever we get a parametrically large number of fields becoming light. This is expected to occur at any perturbative limit of an effective field theory coupled to gravity, or equivalently, at any infinite distance limit in the field space of the quantum gravity completion. In this note, we present a universal pattern that links the asymptotic variation rates in field space of the quantum gravity cut-off $\Lambda_{\text{sp}}$ and the characteristic mass of the lightest tower of states $m$: $\frac{\vec\nabla m}{m} \cdot\frac{\vec\nabla \Lambda_{\rm sp}}{ \Lambda_{\rm sp}}=\frac1{d-2}$, where $d$ is the spacetime dimension. This restriction can be used to make more precise several Swampland criteria that constrain the effective field theories that can be consistently coupled to quantum gravity., Comment: 7 pages, 1 figure

Published

2023

8. Running Decompactification, Sliding Towers, and the Distance Conjecture

Author

Etheredge, Muldrow, Heidenreich, Ben, McNamara, Jacob, Rudelius, Tom, Ruiz, Ignacio, and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

We study towers of light particles that appear in infinite-distance limits of moduli spaces of 9-dimensional $\mathcal{N}=1$ string theories, some of which notably feature decompactification limits with running string coupling. The lightest tower in such decompactification limits consists of the non-BPS Kaluza-Klein modes of Type I$'$ string theory, whose masses depend nontrivially on the moduli of the theory. We work out the moduli-dependence by explicit computation, finding that despite the running decompactification the Distance Conjecture remains satisfied with an exponential decay rate $\alpha \ge \frac{1}{\sqrt{d-2}}$ in accordance with the sharpened Distance Conjecture. The related sharpened Convex Hull Scalar Weak Gravity Conjecture also passes stringent tests. Our results non-trivially test the Emergent String Conjecture, while highlighting the important subtlety that decompactification can lead to a running solution rather than to a higher-dimensional vacuum., Comment: 64 pages, 15 figures

Published

2023

9. Stringy evidence for a universal pattern at infinite distance

Author

Castellano, Alberto, Ruiz, Ignacio, and Valenzuela, Irene

Published

2024

10. Asymptotic Accelerated Expansion in String Theory and the Swampland

Author

Calderón-Infante, José, Ruiz, Ignacio, and Valenzuela, Irene

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

We study whether the universal runaway behaviour of stringy scalar potentials towards infinite field distance limits can produce an accelerated expanding cosmology \`{a} la quintessence. We identify a loophole to some proposed bounds that forbid such asymptotic (at parametric control) accelerated expansion in 4d $\mathcal{N}=1$ supergravities, by considering several terms of the potential competing asymptotically. We then analyse concrete string theory examples coming from F-theory flux compactifications on Calabi-Yau fourfolds, extending previous results by going beyond weak string coupling to different infinite distance limits in the complex structure moduli space. We find some potential candidates to yield asymptotic accelerated expansion with a flux potential satisfying $\gamma=\frac{\|\nabla V\|}{V}<\sqrt{2}$ along its gradient flow. However, whether this truly describes an accelerated expanding cosmology remains as an open question until full moduli stabilization including the Kahler moduli is studied. Finally, we also reformulate the condition for forbidding asymptotic accelerated expansion as a convex hull de Sitter conjecture which resembles a convex hull scalar WGC for the membranes generating the flux potential. This provides a pictorial way to quickly determine the asymptotic gradient flow trajectory in multi-moduli setups and the value of $\gamma$ along it., Comment: 59 pages + appendices, 6 figures. v2: typos corrected, references added. v3: typos corrected, clarifications added

Published

2022

11. Delineation of the adult phenotype of Coffin–Siris syndrome in 35 individuals

Author

Schmetz, Ariane, Lüdecke, Hermann-Josef, Surowy, Harald, Sivalingam, Sugirtahn, Bruel, Ange-Line, Caumes, Roseline, Charles, Perrine, Chatron, Nicolas, Chrzanowska, Krystyna, Codina-Solà, Marta, Colson, Cindy, Cuscó, Ivon, Denommé-Pichon, Anne-Sophie, Edery, Patrick, Faivre, Laurence, Green, Andrew, Heide, Solveig, Hsieh, Tzung-Chien, Hustinx, Alexander, Kleinendorst, Lotte, Knopp, Cordula, Kraft, Florian, Krawitz, Peter M., Lasa-Aranzasti, Amaia, Lesca, Gaetan, López-González, Vanesa, Maraval, Julien, Mignot, Cyril, Neuhann, Teresa, Netzer, Christian, Oehl-Jaschkowitz, Barbara, Petit, Florence, Philippe, Christophe, Posmyk, Renata, Putoux, Audrey, Reis, André, Sánchez-Soler, María José, Suh, Julia, Tkemaladze, Tinatin, Tran Mau Them, Frédéric, Travessa, André, Trujillano, Laura, Valenzuela, Irene, van Haelst, Mieke M., Vasileiou, Georgia, Vincent-Delorme, Catherine, Walther, Mona, Verde, Pablo, Bramswig, Nuria C., and Wieczorek, Dagmar

Published

2024

12. The Dark Dimension and the Swampland

Author

Montero, Miguel, Vafa, Cumrun, and Valenzuela, Irene

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

Motivated by principles from the Swampland program, which characterize requirements for a consistent UV completion of quantum gravity, combined with observational data, we are led to a unique corner of the quantum gravity landscape. In particular, using the Distance/Duality conjecture and the smallness of dark energy, we predict the existence of a light tower of states and a unique extra mesoscopic dimension of length $l\sim \Lambda^{-\frac{1}{4}}\sim 10^{-6}\, m$, with extra massless fermions propagating on it. This automatically leads to a candidate for a tower of sterile neutrinos, and an associated active neutrino mass scale $m_{\nu}\sim \langle H\rangle^2\, \Lambda^{-\frac{1}{12}}M_{pl}^{-\frac{2}{3}}$. Moreover, assuming the mechanism for stabilization of this dark dimension leads to similar masses for active and sterile neutrinos we are led to the prediction of a Higgs vev $\langle H\rangle \sim \Lambda^{\frac{1}{6}}M_{pl}^{\frac{1}{3}}$. Another prediction of the scenario is a species scale ${\hat M} \sim \Lambda^ {\frac{1}{12}}M_{pl}^{\frac{2}{3}}\sim 10^{9}-10^{10} GeV$, corresponding to the higher-dimensional Planck scale. This energy scale may be related to the resolution of the instability of the Higgs effective potential present at a scale of $\sim 10^{11}\, GeV$. We also speculate about the interplay between this energy scale and the GZK limit on ultra-high energy cosmic rays., Comment: 13 pages + refs; 2 figures. v2: further details and references added; v3: Published version

Published

2022

13. Large Field Distances from EFT strings

Author

Lanza, Stefano, Marchesano, Fernando, Martucci, Luca, and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

In any consistent effective field theory of quantum gravity limits of infinite field distance are expected to lead to the EFT breakdown due to the appearance of an infinite tower of light states, as predicted by the Distance Conjecture. We review the Distant Axionic String Conjecture, which proposes that any 4d EFT infinite-field-distance limit can be realized as an RG flow of a fundamental axionic string. The RG flow can be understood in terms of the 4d backreaction of such a string, and implies that it becomes tensionless towards the said limit. This property is understood as a shielding mechanism towards realizing an exact axionic symmetry, and it implies the breakdown of the EFT in a way that reproduces the Distance Conjecture. Motivated by string theory data we further propose the Integral Scaling Conjecture, which provides a specific relation between the string tension and the EFT maximal cut-off set by the infinite tower of states., Comment: Contribution to the CORFU2021 proceedings. 13 pages, 4 figures

Published

2022

14. Correction: Expanded phenotypic spectrum of neurodevelopmental and neurodegenerative disorder Bryant-Li-Bhoj syndrome with 38 additional individuals

Author

Layo-Carris, Dana E., Lubin, Emily E., Sangree, Annabel K., Clark, Kelly J., Durham, Emily L., Gonzalez, Elizabeth M., Smith, Sarina, Angireddy, Rajesh, Wang, Xiao Min, Weiss, Erin, Toutain, Annick, Mendoza-Londono, Roberto, Dupuis, Lucie, Damseh, Nadirah, Velasco, Danita, Valenzuela, Irene, Codina-Solà, Marta, Ziats, Catherine, Have, Jaclyn, Clarkson, Katie, Steel, Dora, Kurian, Manju, Barwick, Katy, Carrasco, Diana, Dagli, Aditi I., Nowaczyk, M. J. M., Hančárová, Miroslava, Bendová, Šárka, Prchalova, Darina, Sedláček, Zdeněk, Baxová, Alica, Nowak, Catherine Bearce, Douglas, Jessica, Chung, Wendy K., Longo, Nicola, Platzer, Konrad, Klöckner, Chiara, Averdunk, Luisa, Wieczorek, Dagmar, Krey, Ilona, Zweier, Christiane, Reis, Andre, Balci, Tugce, Simon, Marleen, Kroes, Hester Y., Wiesener, Antje, Vasileiou, Georgia, Marinakis, Nikolaos M., Veltra, Danai, Sofocleous, Christalena, Kosma, Konstantina, Synodinos, Joanne Traeger, Voudris, Konstantinos A., Vuillaume, Marie-Laure, Gueguen, Paul, Derive, Nicolas, Colin, Estelle, Battault, Clarisse, Au, Billie, Delatycki, Martin, Wallis, Mathew, Gallacher, Lyndon, Majdoub, Fatma, Smal, Noor, Weckhuysen, Sarah, Schoonjans, An-Sofie, Kooy, R. Frank, Meuwissen, Marije, Cocanougher, Benjamin T., Taylor, Kathryn, Pizoli, Carolyn E., McDonald, Marie T., James, Philip, Roeder, Elizabeth R., Littlejohn, Rebecca, Borja, Nicholas A., Thorson, Willa, King, Kristine, Stoeva, Radka, Suerink, Manon, Nibbeling, Esther, Baskin, Stephanie, Guyader, Gwenaël L. E., Kaplan, Julie, Muss, Candace, Carere, Deanna Alexis, Bhoj, Elizabeth J. K., and Bryant, Laura M.

Published

2024

15. Discovery of DNA methylation signature in the peripheral blood of individuals with history of antenatal exposure to valproic acid

Author

Haghshenas, Sadegheh, Putoux, Audrey, Reilly, Jack, Levy, Michael A., Relator, Raissa, Ghosh, Sourav, Kerkhof, Jennifer, McConkey, Haley, Edery, Patrick, Lesca, Gaetan, Besson, Alicia, Coubes, Christine, Willems, Marjolaine, Ruiz-Pallares, Nathalie, Barat-Houari, Mouna, Tizzano, Eduardo F., Valenzuela, Irene, Sabbagh, Quentin, Clayton-Smith, Jill, Jackson, Adam, O’Sullivan, James, Bromley, Rebecca, Banka, Siddharth, Genevieve, David, and Sadikovic, Bekim

Published

2024

16. The Desert and the Swampland

Author

Long, Cody, Montero, Miguel, Vafa, Cumrun, and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

The most natural expectation away from asymptotic limits in moduli space of supergravity theories is the desert scenario, where there are few states between massless fields and the quantum gravity cutoff. In this paper we initiate a systematic study of these regions deep in the moduli space, and use it to place a bound on the number of massless modes by relating it to the black hole species problem. There exists a consistent sub-Planckian UV cutoff (the species scale) which resolves the black hole species problem without bounding the number of light modes. We reevaluate this in the context of supersymmetric string vacua in the desert region and show that even though heuristically the species scale is compatible with expectations, the BPS states of the actual string vacua lead to a stronger dependence of the cutoff scale on the number of massless modes. We propose that this discrepancy, which can be captured by the "BPS desert conjecture", resurrects the idea of a uniform bound on the number of light modes as a way to avoid the black hole species problem. This conjecture also implies a stronger form of the Tadpole Conjecture, which leads to an obstruction in stabilizing all moduli semi-classically for large number of moduli in flux compactifications., Comment: 24 pages + references, 3 figures

Published

2021

17. Deep phenotyping of 11 individuals with pathogenic variants in RNU4-2 reveals a clinically recognizable syndrome

Author

Valenzuela, Irene, Codina-Solà, Marta, Vazquez, Elida, Cueto-González, Anna, Leno-Colorado, Jordi, Lasa-Aranzasti, Amaia, Trujillano, Laura, Masotto, Bárbara, Masas, Miriam, Escobar, Mar, García-Arumí, Elena, and Tizzano, Eduardo F.

Published

2024

18. Prenatal phenotyping: A community effort to enhance the Human Phenotype Ontology

Author

Dhombres, Ferdinand, Morgan, Patricia, Chaudhari, Bimal P, Filges, Isabel, Sparks, Teresa N, Lapunzina, Pablo, Roscioli, Tony, Agarwal, Umber, Aggarwal, Shagun, Beneteau, Claire, Cacheiro, Pilar, Carmody, Leigh C, Collardeau‐Frachon, Sophie, Dempsey, Esther A, Dufke, Andreas, Duyzend, Michael Henri, Ghosh, Mirna, Giordano, Jessica L, Glad, Ragnhild, Grinfelde, Ieva, Iliescu, Dominic G, Ladewig, Markus S, Munoz‐Torres, Monica C, Pollazzon, Marzia, Radio, Francesca Clementina, Rodo, Carlota, Silva, Raquel Gouveia, Smedley, Damian, Sundaramurthi, Jagadish Chandrabose, Toro, Sabrina, Valenzuela, Irene, Vasilevsky, Nicole A, Wapner, Ronald J, Zemet, Roni, Haendel, Melissa A, and Robinson, Peter N

Subjects

Genetics, Human Genome, Clinical Research, Congenital Structural Anomalies, Prevention, Pediatric, Perinatal Period - Conditions Originating in Perinatal Period, Detection, screening and diagnosis, 4.1 Discovery and preclinical testing of markers and technologies, Neurological, Reproductive health and childbirth, Good Health and Well Being, Infant, Newborn, Humans, Female, Pregnancy, Placenta, Computational Biology, Phenotype, Rare Diseases, Exome Sequencing, HPO, human phenotype ontology, GA4GH Phenopacket, prenatal diagnosis, fetal pathology, prenatal phenotyping, Clinical Sciences, Genetics & Heredity

Abstract

Technological advances in both genome sequencing and prenatal imaging are increasing our ability to accurately recognize and diagnose Mendelian conditions prenatally. Phenotype-driven early genetic diagnosis of fetal genetic disease can help to strategize treatment options and clinical preventive measures during the perinatal period, to plan in utero therapies, and to inform parental decision-making. Fetal phenotypes of genetic diseases are often unique and at present are not well understood; more comprehensive knowledge about prenatal phenotypes and computational resources have an enormous potential to improve diagnostics and translational research. The Human Phenotype Ontology (HPO) has been widely used to support diagnostics and translational research in human genetics. To better support prenatal usage, the HPO consortium conducted a series of workshops with a group of domain experts in a variety of medical specialties, diagnostic techniques, as well as diseases and phenotypes related to prenatal medicine, including perinatal pathology, musculoskeletal anomalies, neurology, medical genetics, hydrops fetalis, craniofacial malformations, cardiology, neonatal-perinatal medicine, fetal medicine, placental pathology, prenatal imaging, and bioinformatics. We expanded the representation of prenatal phenotypes in HPO by adding 95 new phenotype terms under the Abnormality of prenatal development or birth (HP:0001197) grouping term, and revised definitions, synonyms, and disease annotations for most of the 152 terms that existed before the beginning of this effort. The expansion of prenatal phenotypes in HPO will support phenotype-driven prenatal exome and genome sequencing for precision genetic diagnostics of rare diseases to support prenatal care.

Published

2022

19. Finiteness and the Swampland

Author

Hamada, Yuta, Montero, Miguel, Vafa, Cumrun, and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

We view and provide further evidence for a number of Swampland criteria, including the Weak Gravity Conjecture, Distance Conjecture and bounds on the finiteness of the quantum gravity vacua from the prism of the finiteness of black hole entropy. Furthermore we propose that at least all of these Swampland statements may be more fundamentally a consequence of the finiteness of quantum gravity amplitudes., Comment: 1 figure, 23 pages + appendices

Published

2021

20. DNA methylation episignature, extension of the clinical features, and comparative epigenomic profiling of Hao-Fountain syndrome caused by variants in USP7

Author

van der Laan, Liselot, Karimi, Karim, Rooney, Kathleen, Lauffer, Peter, McConkey, Haley, Caro, Pilar, Relator, Raissa, Levy, Michael A., Bhai, Pratibha, Mignot, Cyril, Keren, Boris, Briuglia, Silvana, Sobering, Andrew K., Li, Dong, Vissers, Lisenka E.L.M., Dingemans, Alexander J.M., Valenzuela, Irene, Verberne, Eline A., Misra-Isrie, Mala, Zwijnenburg, Petra J.G., Waisfisz, Quinten, Alders, Mariëlle, Sailer, Sebastian, Schaaf, Christian P., Mannens, Marcel M.A.M., Sadikovic, Bekim, van Haelst, Mieke M., and Henneman, Peter

Published

2024

21. Non-Invertible Global Symmetries and Completeness of the Spectrum

Author

Heidenreich, Ben, McNamara, Jacob, Montero, Miguel, Reece, Matthew, Rudelius, Tom, and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

It is widely believed that consistent theories of quantum gravity satisfy two basic kinematic constraints: they are free from any global symmetry, and they contain a complete spectrum of gauge charges. For compact, abelian gauge groups, completeness follows from the absence of a 1-form global symmetry. However, this correspondence breaks down for more general gauge groups, where the breaking of the 1-form symmetry is insufficient to guarantee a complete spectrum. We show that the correspondence may be restored by broadening our notion of symmetry to include non-invertible topological operators, and prove that their absence is sufficient to guarantee a complete spectrum for any compact, possibly disconnected gauge group. In addition, we prove an analogous statement regarding the completeness of twist vortices: codimension-2 objects defined by a discrete holonomy around their worldvolume, such as cosmic strings in four dimensions. We discuss how this correspondence is modified in various, more general contexts, including non-compact gauge groups, Higgsing of gauge theories, and the addition of Chern-Simons terms. Finally, we discuss the implications of our results for the Swampland program, as well as the phenomenological implications of the existence of twist strings., Comment: 55 pages + references; 3 figures; v2: minor revisions and references added

Published

2021

22. AdS Swampland Conjectures and Light Fermions

Author

Gonzalo, Eduardo, Ibáñez, Luis E., and Valenzuela, Irene

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

We consider constraints on $D$-dimensional theories in $M_D$, $dS_D$ and $AdS_D$ backgrounds in the light of AdS swampland conjectures as applied to their compactification in a circle. In particular we consider the non-SUSY AdS instability conjecture and the AdS distance conjecture. For $M_D$ and $dS_D$ vacua the results may be summarized by a light fermion conjecture which states that in theories with $\Lambda_D\geq 0$ and a positive first non-vanishing supertrace $(-1)^{k+1}\text{Str} M^{2k}>0$, a surplus of light fermions with mass $m_f\lesssim \Lambda_D^{1/D}$ must be present. On the contrary, the cases of $M_D$ and $AdS_D$ can be made consistent with the mild but not the strong version of the AdS Distance conjecture, since the KK tower in the lower $d$-dim theory will scale as $m\lesssim \Lambda_d^{\alpha}$ with $\alpha=1/d$. The above constraints also suggest that the Standard Model of particle physics would be inconsistent in Minkowski space but consistent in dS if the lightest neutrino is Dirac and lighter than the cosmological constant scale., Comment: Minor corrections. References added

Published

2021

23. The EFT stringy viewpoint on large distances

Author

Lanza, Stefano, Marchesano, Fernando, Martucci, Luca, and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

We observe a direct relation between the existence of fundamental axionic strings, dubbed EFT strings, and infinite distance limits in 4d $\mathcal{N}=1$ EFTs coupled to gravity. The backreaction of EFT strings can be interpreted as RG flow of their couplings, and allows one to probe different regimes within the field space of the theory. We propose that any 4d EFT infinite distance limit can be realised as an EFT string flow. We show that along such limits the EFT string becomes asymptotically tensionless, and so the EFT eventually breaks down. This provides an upper bound for the maximal field range of an EFT with a finite cut-off, and reproduces the Swampland Distance Conjecture from a bottom-up perspective. Even if there are typically other towers of particles becoming light, we propose that the mass of the leading tower scales as $m^2\sim \mathcal{T}^w$ in Planck units, with $\mathcal{T}$ the EFT string tension and $w$ a positive integer. Our results hold even in the presence of a non-trivial potential, as long as its energy scale remains well below the cut-off. We check both proposals for large classes of 4d $\mathcal{N}=1$ string compactifications, finding that only the values $w=1,2,3$ are realised., Comment: 72 pages + appendices, 6 figures; v3: typos corrected

Published

2021

24. Lectures on the Swampland Program in String Compactifications

Author

van Beest, Marieke, Calderón-Infante, José, Mirfendereski, Delaram, and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

The Swampland program aims to determine the constraints that an effective field theory must satisfy to be consistent with a UV embedding in a quantum gravity theory. Different proposals have been formulated in the form of Swampland conjectures. In these lecture notes, we provide a pedagogical introduction to the most important Swampland conjectures, their connections and their realization in string theory compactifications. The notes are based on the series of lectures given by Irene Valenzuela at the online QFT and Geometry summer school in July 2020., Comment: 71 pages, 27 figures; v2: typos corrected, references added

Published

2021

25. The Convex Hull Swampland Distance Conjecture and Bounds on Non-geodesics

Author

Calderón-Infante, José, Uranga, Angel M., and Valenzuela, Irene

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

The Swampland Distance Conjecture (SDC) restricts the geodesic distances that scalars can traverse in effective field theories as they approach points at infinite distance in moduli space. We propose that, when applied to the subset of light fields in effective theories with scalar potentials, the SDC restricts the amount of non-geodesicity allowed for trajectories along valleys of the potential. This is necessary to ensure consistency of the SDC as a valid swampland criterium at any energy scale across the RG flow. We provide a simple description of this effect in moduli space of hyperbolic space type, and products thereof, and obtain critical trajectories which lead to maximum non-geodesicity compatible with the SDC. We recover and generalize these results by expressing the SDC as a new Convex Hull constraint on trajectories, characterizing towers by their scalar charge to mass ratio in analogy to the Scalar Weak Gravity Conjecture. We show that recent results on the asymptotic scalar potential of flux compatifications near infinity in moduli space precisely realize these critical amounts of non-geodesicity. Our results suggest that string theory flux compactifications lead to the most generic potentials allowing for maximum non-geodesicity of the potential valleys while respecting the SDC along them., Comment: 35 pages, 6 figures

Published

2020

26. Chern-Weil Global Symmetries and How Quantum Gravity Avoids Them

Author

Heidenreich, Ben, McNamara, Jacob, Montero, Miguel, Reece, Matthew, Rudelius, Tom, and Valenzuela, Irene

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

We draw attention to a class of generalized global symmetries, which we call "Chern-Weil global symmetries," that arise ubiquitously in gauge theories. The Noether currents of these Chern-Weil global symmetries are given by wedge products of gauge field strengths, such as $F_2 \wedge H_3$ and $\text{tr}(F_2^2)$, and their conservation follows from Bianchi identities. As a result, they are not easy to break. However, it is widely believed that exact global symmetries are not allowed in a consistent theory of quantum gravity. As a result, any Chern-Weil global symmetry in a low-energy effective field theory must be either broken or gauged when the theory is coupled to gravity. In this paper, we explore the processes by which Chern-Weil symmetries may be broken or gauged in effective field theory and string theory. We will see that many familiar phenomena in string theory, such as axions, Chern-Simons terms, worldvolume degrees of freedom, and branes ending on or dissolving in other branes, can be interpreted as consequences of the absence of Chern-Weil symmetries in quantum gravity, suggesting that they might be general features of quantum gravity. We further discuss implications of breaking and gauging Chern-Weil symmetries for particle phenomenology and for boundary CFTs of AdS bulk theories. Chern-Weil global symmetries thus offer a unified framework for understanding many familiar aspects of quantum field theory and quantum gravity., Comment: 62 pages + appendices, 5 figures. v2: References added

Published

2020

27. A CFT Distance Conjecture

Author

Perlmutter, Eric, Rastelli, Leonardo, Vafa, Cumrun, and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

We formulate a series of conjectures relating the geometry of conformal manifolds to the spectrum of local operators in conformal field theories in $d>2$ spacetime dimensions. We focus on conformal manifolds with limiting points at infinite distance with respect to the Zamolodchikov metric. Our central conjecture is that all theories at infinite distance possess an emergent higher-spin symmetry, generated by an infinite tower of currents whose anomalous dimensions vanish exponentially in the distance. Stated geometrically, the diameter of a non-compact conformal manifold must diverge logarithmically in the higher-spin gap. In the holographic context our conjectures are related to the Distance Conjecture in the swampland program. Interpreted gravitationally, they imply that approaching infinite distance in moduli space at fixed AdS radius, a tower of higher-spin fields becomes massless at an exponential rate that is bounded from below in Planck units. We discuss further implications for conformal manifolds of superconformal field theories in three and four dimensions., Comment: 22 pages. v3: fixed compiling error

Published

2020

28. de Sitter Bubbles and the Swampland

Author

Bedroya, Alek, Montero, Miguel, Vafa, Cumrun, and Valenzuela, Irene

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

A number of Swampland conjectures and in particular the Trans-Planckian Censorship Conjecture (TCC) suggest that de Sitter space is highly unstable if it exists at all. In this paper we construct effective theories of scalars rolling on potentials which are dual to a chain of short-lived dS spaces decaying from one to the next through a cascade of non-perturbative nucleation of bubbles. We find constraints on the effective potential resulting from various swampland criteria, including TCC, Weak Gravity Conjecture and Distance Conjecture. Surprisingly we find that TCC essentially incorporates all the other ones, and leads to a subclass of possible dual effective potentials. These results marginally rule out emergence of eternal inflation in the dual effective theory. We discuss some cosmological implications of our observations., Comment: 21 pages + appendices, 7 figures. v2: References added v3: References corrected

Published

2020

29. Swampland Conjectures for Strings and Membranes

Author

Lanza, Stefano, Marchesano, Fernando, Martucci, Luca, and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

Swampland criteria like the Weak Gravity Conjecture should not only apply to particles, but also to other lower-codimension charged objects in 4d EFTs like strings and membranes. However, the description of the latter is in general subtle due to their large backreaction effects. In the context of 4d $\mathcal{N}=1$ EFTs, we consider $\frac12$BPS strings and membranes which are fundamental, in the sense that they cannot be resolved within the EFT regime. We argue that, if interpreted from the EFT viewpoint, the 4d backreaction of these objects translates into a classical RG flow of their couplings. Constraints on the UV charges and tensions get then translated to constraints on the axionic kinetic terms and scalar potential of the EFT. This uncovers new relations among the Swampland Conjectures, which become interconnected by the physical properties of low-codimension objects. In particular, using that string RG flows describe infinite field distance limits, we show that the WGC for strings implies the Swampland Distance Conjecture. Similarly, WGC-saturating membranes generate a scalar potential satisfying the de Sitter Conjecture., Comment: 57 pages + appendices, 12 figures; v2: typos corrected

Published

2020

30. Nothing is certain in string compactifications

Author

Etxebarria, Iñaki García, Montero, Miguel, Sousa, Kepa, and Valenzuela, Irene

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

A bubble of nothing is a spacetime instability where a compact dimension collapses. After nucleation, it expands at the speed of light, leaving "nothing" behind. We argue that the topological and dynamical mechanisms which could protect a compactification against decay to nothing seem to be absent in string compactifications once supersymmetry is broken. The topological obstruction lies in a bordism group and, surprisingly, it can disappear even for a SUSY-compatible spin structure. As a proof of principle, we construct an explicit bubble of nothing for a $T^3$ with completely periodic (SUSY-compatible) spin structure in an Einstein dilaton Gauss-Bonnet theory, which arises in the low-energy limit of certain heterotic and type II flux compactifications. Without the topological protection, supersymmetric compactifications are purely stabilized by a Coleman-deLuccia mechanism, which relies on a certain local energy condition. This is violated in our example by the nonsupersymmetric GB term. In the presence of fluxes this energy condition gets modified and its violation might be related to the Weak Gravity Conjecture. We expect that our techniques can be used to construct a plethora of new bubbles of nothing in any setup where the low-energy bordism group vanishes, including type II compactifications on $CY_3$, AdS flux compactifications on 5-manifolds, and M-theory on 7-manifolds. This lends further evidence to the conjecture that any non-supersymmetric vacuum of quantum gravity is ultimately unstable., Comment: 87 pages + appendices (including a 16-page shortened version), 15 figures

Published

2020

31. Merging the Weak Gravity and Distance Conjectures Using BPS Extremal Black Holes

Author

Gendler, Naomi and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

We analyze the charge-to-mass structure of BPS states in general infinite-distance limits of $\mathcal{N}=2$ compactifications of Type IIB string theory on Calabi-Yau three-folds, and use the results to sharpen the formulation of the Swampland Conjectures in the presence of multiple gauge and scalar fields. We show that the BPS bound coincides with the black hole extremality bound in these infinite distance limits, and that the charge-to-mass vectors of the BPS states lie on degenerate ellipsoids with only two non-degenerate directions, regardless of the number of moduli or gauge fields. We provide the numerical value of the principal radii of the ellipsoid in terms of the classification of the singularity that is being approached. We use these findings to inform the Swampland Distance Conjecture, which states that a tower of states becomes exponentially light along geodesic trajectories towards infinite field distance. We place general bounds on the mass decay rate $\lambda$ of this tower in terms of the black hole extremality bound, which in our setup implies $\lambda \geq 1/\sqrt{6}$. We expect this framework to persist beyond $\mathcal{N}=2$ as long as a gauge coupling becomes small in the infinite field distance limit., Comment: 66 pages, 10 figures; v2: typos corrected, references added

Published

2020

32. Elucidating the clinical and molecular spectrum of SMARCC2-associated NDD in a cohort of 65 affected individuals

Author

Bosch, Elisabeth, Popp, Bernt, Güse, Esther, Skinner, Cindy, van der Sluijs, Pleuntje J., Maystadt, Isabelle, Pinto, Anna Maria, Renieri, Alessandra, Bruno, Lucia Pia, Granata, Stefania, Marcelis, Carlo, Baysal, Özlem, Hartwich, Dewi, Holthöfer, Laura, Isidor, Bertrand, Cogne, Benjamin, Wieczorek, Dagmar, Capra, Valeria, Scala, Marcello, De Marco, Patrizia, Ognibene, Marzia, Jamra, Rami Abou, Platzer, Konrad, Carter, Lauren B., Kuismin, Outi, van Haeringen, Arie, Maroofian, Reza, Valenzuela, Irene, Cuscó, Ivon, Martinez-Agosto, Julian A., Rabani, Ahna M., Mefford, Heather C., Pereira, Elaine M., Close, Charlotte, Anyane-Yeboa, Kwame, Wagner, Mallory, Hannibal, Mark C., Zacher, Pia, Thiffault, Isabelle, Beunders, Gea, Umair, Muhammad, Bhola, Priya T., McGinnis, Erin, Millichap, John, van de Kamp, Jiddeke M., Prijoles, Eloise J., Dobson, Amy, Shillington, Amelle, Graham, Brett H., Garcia, Evan-Jacob, Galindo, Maureen Kelly, Ropers, Fabienne G., Nibbeling, Esther A.R., Hubbard, Gail, Karimov, Catherine, Goj, Guido, Bend, Renee, Rath, Julie, Morrow, Michelle M., Millan, Francisca, Salpietro, Vincenzo, Torella, Annalaura, Nigro, Vincenzo, Kurki, Mitja, Stevenson, Roger E., Santen, Gijs W.E., Zweier, Markus, Campeau, Philippe M., Severino, Mariasavina, Reis, André, Accogli, Andrea, and Vasileiou, Georgia

Published

2023

33. Arterial tortuosity syndrome: Phenotypic features and cardiovascular manifestations in 4 newly identified patients

Author

Esmel-Vilomara, Roger, Valenzuela, Irene, Riaza, Lucía, Rodríguez-Santiago, Benjamín, Rosés-Noguer, Ferran, Boronat, Susana, and Sabaté-Rotés, Anna

Published

2023

34. An spanish study of secondary findings in families affected with mendelian disorders: choices, prevalence and family history

Author

Codina-Solà, Marta, Trujillano, Laura, Abulí, Anna, Rovira-Moreno, Eulàlia, Muñoz-Cabello, Patricia, Campos, Berta, Fernández-Álvarez, Paula, Palau, Dolors, Carrasco, Estela, Valenzuela, Irene, Cueto-González, Anna Maria., Lasa-Aranzasti, Amaia, Limeres, Javier, Leno-Colorado, Jordi, Costa-Roger, Mar, Moles-Fernández, Alejandro, Balmaña, Judith, Díez, Orland, Cuscó, Ivon, Garcia-Arumí, Elena, and Tizzano, Eduardo Fidel

Published

2023

35. Asymptotic Flux Compactifications and the Swampland

Author

Grimm, Thomas W., Li, Chongchuo, and Valenzuela, Irene

Subjects

High Energy Physics - Theory, Mathematics - Algebraic Geometry

Abstract

We initiate the systematic study of flux scalar potentials and their vacua by using asymptotic Hodge theory. To begin with, we consider F-theory compactifications on Calabi-Yau fourfolds with four-form flux. We argue that a classifications of all scalar potentials can be performed when focusing on regions in the field space in which one or several fields are large and close to a boundary. To exemplify the constraints on such asymptotic flux compactifications, we explicitly determine this classification for situations in which two complex structure moduli are taken to be large. Our classification captures, for example, the weak string coupling limit and the large complex structure limit. We then show that none of these scalar potentials admits de Sitter vacua at parametric control, formulating a new no-go theorem valid beyond weak string coupling. We also check that the recently proposed asymptotic de Sitter conjecture is satisfied near any infinite distance boundary. Extending this strategy further, we generally identify the type of fluxes that induce an infinite series of Anti-de Sitter vacua, thereby generalizing the well-known Type IIA settings. Finally, we argue that also the large field dynamics of any axion in complex structure moduli space is universally constrained. Displacing such an axion by large field values will generally lead to severe backreaction effects destabilizing other directions., Comment: 67 pages, v2: renamed singularity types to more naturally structure enhancement patterns, typos fixed, minor clarifications and references added, v3: published version, typos fixed

Published

2019

36. Asymptotic accelerated expansion in string theory and the Swampland

Author

Calderón-Infante, José, Ruiz, Ignacio, and Valenzuela, Irene

Published

2023

37. The Swampland Distance Conjecture for Kahler moduli

Author

Corvilain, Pierre, Grimm, Thomas W., and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

The Swampland Distance Conjecture suggests that an infinite tower of modes becomes exponentially light when approaching a point that is at infinite proper distance in field space. In this paper we investigate this conjecture in the K\"ahler moduli spaces of Calabi-Yau threefold compactifications and further elucidate the proposal that the infinite tower of states is generated by the discrete symmetries associated to infinite distance points. In the large volume regime the infinite tower of states is generated by the action of the local monodromy matrices and encoded by an orbit of D-brane charges. We express these monodromy matrices in terms of the triple intersection numbers to classify the infinite distance points and construct the associated infinite charge orbits that become massless. We then turn to a detailed study of charge orbits in elliptically fibered Calabi-Yau threefolds. We argue that for these geometries the modular symmetry in the moduli space can be used to transfer the large volume orbits to the small elliptic fiber regime. The resulting orbits can be used in compactifications of M-theory that are dual to F-theory compactifications including an additional circle. In particular, we show that there are always charge orbits satisfying the distance conjecture that correspond to Kaluza-Klein towers along that circle. Integrating out the KK towers yields an infinite distance in the moduli space thereby supporting the idea of emergence in that context., Comment: 47 pages, 1 figure, 4 tables. v2:minor modifications and references added

Published

2018

38. Swampland Distance Conjecture, Inflation and $\alpha$-attractors

Author

Scalisi, Marco and Valenzuela, Irene

Subjects

High Energy Physics - Theory, Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Phenomenology

Abstract

The Swampland Distance Conjecture (SDC) constraints the dynamics emerging at infinite distances in field space of any effective field theory consistent with quantum gravity. It provides a relation between the cut-off in energies and the field range which, as we show, in the context of inflation it yields a universal upper bound on the inflaton excursion in terms of the tensor-to-scalar ratio, measured at typical CMB scales. In this note, we investigate the interplay between the SDC and the emergent inflationary physics around infinite distances singularities in string theory, with a special look at its significance for the $\alpha$-attractor scenario of inflation. We show that the conjecture itself suggests that inflation may arise as an infinite distance phenomenon with the asymptotic kinetic structure typical of $\alpha$-attractors. Furthermore, we argue that a proper string realisation of these cosmological models in Calabi-Yau manifolds should occur around infinite field distance singularities. However, such constructions typically imply that inflation should not take place in the limit where the inflaton kinetic term develops a pole but rather in the opposite regime. Finally, we study the constraints that the SDC poses on $\alpha$-attractors and show that they still leave considerable room for compatibility with observations., Comment: 15 pages, 3 figures; v2: comments and references added

Published

2018

39. The desert and the swampland

Author

Long, Cody, Montero, Miguel, Vafa, Cumrun, and Valenzuela, Irene

Published

2023

40. Infinite Distances in Field Space and Massless Towers of States

Author

Grimm, Thomas W., Palti, Eran, and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

It has been conjectured that in theories consistent with quantum gravity infinite distances in field space coincide with an infinite tower of states becoming massless exponentially fast in the proper field distance. The complex-structure moduli space of Calabi-Yau manifolds is a good testing ground for this conjecture since it is known to encode quantum gravity physics. We study infinite distances in this setting and present new evidence for the above conjecture. Points in moduli space which are at infinite proper distance along any path are characterised by an infinite order monodromy matrix. We utilise the nilpotent orbit theorem to show that for a large class of such points the monodromy matrix generates an infinite orbit within the spectrum of BPS states. We identify an infinite tower of states with this orbit. Further, the theorem gives the local metric on the moduli space which can be used to show that the mass of the states decreases exponentially fast upon approaching the point. We also propose a reason for why infinite distances are related to infinite towers of states. Specifically, we present evidence that the infinite distance itself is an emergent quantum phenomenon induced by integrating out at one-loop the states that become massless. Concretely, we show that the behaviour of the field space metric upon approaching infinite distance can be recovered from integrating out the BPS states. Similarly, at infinite distance the gauge couplings of closed-string Abelian gauge symmetries vanish in a way which can be matched onto integrating out the infinite tower of charged BPS states. This presents evidence towards the idea that also the gauge theory weak-coupling limit can be thought of as emergent., Comment: 67 pages, 3 figures. v2: minor clarifications and references added

Published

2018

41. Lectures on the Swampland Program in String Compactifications

Author

van Beest, Marieke, Calderón-Infante, José, Mirfendereski, Delaram, and Valenzuela, Irene

Published

2022

42. The dark dimension and the Swampland

Author

Montero, Miguel, Vafa, Cumrun, and Valenzuela, Irene

Published

2023

43. Backreaction in Axion Monodromy, 4-forms and the Swampland

Author

Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

Axion monodromy models can always be described in terms of an axion coupled to 3-form gauge fields with non-canonical kinetic terms. The presence of the saxions parametrising the kinetic metrics of the 3-form fields leads to backreaction effects in the inflationary dynamics. We review the case in which saxions backreact on the K\"ahler metric of the inflaton leading to a logarithmic scaling of the proper field distance at large field. This behaviour is universal in Type II string flux compactifications and consistent with a refinement of the Swampland Conjecture. The critical point at which this behaviour appears depends on the mass hierarchy between the inflaton and the saxions. However, in tractable compactifications, such a hierarchy cannot be realised without leaving the regime of validity of the effective theory, disfavouring transplanckian excursions in string theory., Comment: Proceedings prepared for the "Workshop on Geometry and Physics", November 2016, Ringberg Castle

Published

2017

44. Constraining the EW Hierarchy from the Weak Gravity Conjecture

Author

Ibanez, Luis E., Martin-Lozano, Victor, and Valenzuela, Irene

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

In this addendum we complement the remarks made in ref[1] constraining the value of the cosmological constant $\Lambda_4$ in terms of neutrino masses. Those were based on a sharpened version of the Weak Gravity Conjecture as applied to compactifications of the SM to lower dimensions. We argue that the same line of reasoning implies that for fixed values of $\Lambda_4$ and the Yukawa coupling of the lightest neutrino $Y_{\nu_1}$, the EW scale is bounded above. This is a trivial consequence of neutrino masses depending on the Higgs vev. In the case of massive Majorana neutrinos with a see-saw mechanism associated to a large scale $M\simeq 10^{10-14}$ GeV and $Y_{\nu_1}\simeq 10^{-3}$, one obtains that the EW scale cannot exceed $M_{EW}\lesssim 10^2-10^4$ GeV. From this point of view, the delicate fine-tuning required to get a small EW scale would be a mirage, since parameters yielding higher EW scales would be in the swampland and would not count as possible consistent theories. This would bring a new perspective into the issue of the EW hierarchy., Comment: 3 pages, 2 figures

Published

2017

45. Constraining Neutrino Masses, the Cosmological Constant and BSM Physics from the Weak Gravity Conjecture

Author

Ibanez, Luis E., Martin-Lozano, Victor, and Valenzuela, Irene

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

It is known that there are AdS vacua obtained from compactifying the SM to 2 or 3 dimensions. The existence of such vacua depends on the value of neutrino masses through the Casimir effect. Using the Weak Gravity Conjecture, it has been recently argued by Ooguri and Vafa that such vacua are incompatible with the SM embedding into a consistent theory of quantum gravity. We study the limits obtained for both the cosmological constant $\Lambda_4$ and neutrino masses from the absence of such dangerous 3D and 2D SM AdS vacua. One interesting implication is that $\Lambda_4$ is bounded to be larger than a scale of order $m_\nu^4$, as observed experimentally. Interestingly, this is the first argument implying a non-vanishing $\Lambda_4$ only on the basis of particle physics, with no cosmological input. Conversely, the observed $\Lambda_4$ implies strong constraints on neutrino masses in the SM and also for some BSM extensions including extra Weyl or Dirac spinors, gravitinos and axions. The upper bounds obtained for neutrino masses imply (for fixed neutrino Yukawa and $\Lambda_4$) the existence of upper bounds on the EW scale. In the case of massive Majorana neutrinos with a see-saw mechanism associated to a large scale $M\simeq 10^{10-14}$ GeV and $Y_{\nu_1}\simeq 10^{-3}$, one obtains that the EW scale cannot exceed $M_{EW}\lesssim 10^2-10^4$ GeV. From this point of view, the delicate fine-tuning required to get a small EW scale would be a mirage, since parameters yielding higher EW scales would be in the swampland and would not count as possible consistent theories. This would bring a new perspective into the issue of the EW hierarchy., Comment: 41 pages, 21 figures, 5 tables. v2: Added section 6 + fig.12 + references; typos corrected

Published

2017

46. The Swampland Conjecture and F-term Axion Monodromy Inflation

Author

Blumenhagen, Ralph, Valenzuela, Irene, and Wolf, Florian

Subjects

High Energy Physics - Theory

Abstract

We continue the investigation of F-term axion monodromy inflation in string theory, while seriously taking the issue of moduli stabilization into account. For a number of closed and open string models, we show that they suffer from serious control issues once one is trying to realize trans-Planckian field excursions. More precisely, the flux tuning required to delay the logarithmic scaling of the field distance to a trans-Planckian value cannot be done without leaving the regime where the employed effective supergravity theory is under control. Our findings are consistent with the axionic extension of the Refined Swampland Conjecture, stating that in quantum gravity the effective theory breaks down for a field excursion beyond the Planck scale. Our analysis suggests that models of F-term axion monodromy inflation with a tensor-to-scalar ratio $r\ge O(10^{-3})$ cannot be parametrically controlled., Comment: 50 pages, 3 figures, v2: typos corrected and references added

Published

2017

47. A Chern-Simons Pandemic

Author

Montero, Miguel, Uranga, Angel M., and Valenzuela, Irene

Subjects

High Energy Physics - Theory

Abstract

In this paper we study the consistency of generalized global symmetries in theories of quantum gravity, in particular string theory. Such global symmetries arise in theories with $(p+1)$-form gauge fields, and for spacetime dimension $d\leq p+3$ there are obstructions to their breaking even by quantum effects of charged objects. In 4d theories with a 2-form gauge field (or with an axion scalar), these fields endow Schwarzschild black holes with quantum hair, a global charge leading to usual trouble with remnants. We describe precise mechanisms, and examples from string compactifications and holographic pairs, in which these problems are evaded by either gauging or breaking the global symmetry, via (suitable versions of) Stuckelberg or Kaloper-Sorbo couplings. We argue that even in the absence of such couplings, the generic solution in string theory is the breaking of the global symmetries by cubic Chern-Simons terms involving different antisymmetric tensor fields. We conjecture that any theory with (standard or higher-degree antisymmetric tensor) gauge fields is in the Swampland unless its effective action includes such Chern-Simons terms. This conjecture implies that many familiar theories, like QED (even including the charged particles required by the Weak Gravity Conjecture) or $\mathcal{N}=8$ supergravity in four dimensions, are inconsistent in quantum gravity unless they are completed by these Chern-Simons terms., Comment: 60 pages, 2 figures

Published

2017

48. Parental or Trio Magnetic Resonance Imaging to Improve Prenatal Counseling in Brain Anomalies.

Author

Rodó, Carlota, Maiz, Nerea, Vázquez, Élida, Gómez‐Andrés, David, Valenzuela, Irene, Abulí, Anna, and Carreras, Elena

Abstract

Objective: To assess whether targeted magnetic resonance of one or both of the progenitors could refine the diagnosis in cases of fetal brain anomalies with uncertain prognosis. Methods: Single‐center retrospective case series, where targeted magnetic resonance was performed on one or both of progenitors after a suspicion of fetal complex brain anomalies, and prognosis was unclear based solely on fetal tests (neurosonogram, fetal magnetic resonance, and genetic testing). Results: Seven women were included. Results were relevant for prenatal counseling in five cases, with a definitive diagnosis in three: one periventricular nodular heterotopia, one mild tubulinopathy, and one dynein‐associated neurodevelopmental disorder. Median gestational age at referral was 28.3 weeks (range, 20.7–34.9). Neurosonogram findings were inconclusive in all cases. Exome sequencing in amniotic fluid was conducted for all cases. Fetal magnetic resonance was performed at a median gestational age of 34.4 weeks (range, 29.3–35.7), confirming ultrasound diagnosis in all cases, and providing substantial additional information in two (2/7, 28.6%). Parental magnetic resonance findings aligned with fetal findings in 5/7 cases (71.4%). Conclusion: DUO or TRIO magnetic resonance, involving both progenitors and the fetus, could play a significant role in prenatal diagnosis of selected brain anomalies with uncertain prognosis. [ABSTRACT FROM AUTHOR]

Published

2024

49. Management of aortic disease in children with FBN1-related Marfan syndrome: A joint statement from the paediatric subgroup of the European Reference Network of Vascular Diseases (VASCERN, Heritable Thoracic Aortic Disease working group) and the Association for European Paediatric and Congenital Cardiology (AEPC)

Author

Muiño-Mosquera, Laura, Cervi, Elena, Groote, Katya De, Dewals, Wendy, Fejzic, Zina, Kazamia, Kalliopi, Mathur, Sujeev, Milleron, Olivier, Mir, Thomas S, Nielsen, Dorte G, Odermarsky, Michal, Sabate-Rotes, Anna, van der Hulst, Annelies, Valenzuela, Irene, and Jondeau, Guillaume

Subjects

ASCENDING aorta dissection, MARFAN syndrome, PEDIATRIC cardiology, SPORTS participation, THERAPEUTICS

Abstract

Marfan syndrome (MFS) is a hereditary connective tissue disorder with an estimated prevalence of 1:5000–1:10 000 individuals. It is a pleiotropic disease characterized by specific ocular, cardiovascular, and skeletal features. The most common cardiovascular complication is aortic root dilatation which untreated can lead to life-threatening aortic root dissection, mainly occurring in adult patients. Prompt diagnosis, appropriate follow-up, and timely treatment can prevent aortic events. Currently there are no specific recommendations for treatment of children with MFS, and management is greatly based on adult guidelines. Furthermore, due to the scarcity of studies including children, there is a lack of uniform treatment across different centres. This consensus document aims at bridging these gaps of knowledge. This work is a joint collaboration between the paediatric subgroup of the European Network of Vascular Diseases (VASCERN, Heritable Thoracic Aortic Disease Working Group) and the Association for European Paediatric and Congenital Cardiology (AEPC). A group of experts from 12 different centres and 8 different countries participated in this effort. This document reviews four main subjects, namely, (i) imaging of the aorta at diagnosis and follow-up, (ii) recommendations on medical treatment, (iii) recommendations on surgical treatment, and (iv) recommendations on sport participation. [ABSTRACT FROM AUTHOR]

Published

2024

50. AXIN1 mutations in nonsyndromic craniosynostosis.

Author

Timberlake, Andrew T., Hemal, Kshipra, Gustafson, Jonas A., Le Thi Hao, Valenzuela, Irene, Slavotinek, Anne, Cunningham, Michael L., Kahle, Kristopher T., Lifton, Richard P., and Persing, John A.

Published

2024