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1. Quark masses and mixing in string-inspired models

   https://doi.org/10.1007/JHEP06(2025)175  

   Constantin, Andrei; Fraser-Taliente, Cristofero S; Harvey, Thomas R; Leung, Lucas_T Y; Lukas, Andre (June 2025, Journal of High Energy Physics)

   A<sc>bstract</sc> We study a class of supersymmetric Froggatt-Nielsen (FN) models with multiple U(1) symmetries and Standard Model (SM) singlets inspired by heterotic string compactifications on Calabi-Yau threefolds. The string-theoretic origin imposes a particular charge pattern on the SM fields and FN singlets, dividing the latter into perturbative and non-perturbative types. Employing systematic and heuristic search strategies, such as genetic algorithms, we identify charge assignments and singlet VEVs that replicate the observed mass and mixing hierarchies in the quark sector, and subsequently refine the Yukawa matrix coefficients to accurately match the observed values for the Higgs VEV, the quark and charged lepton masses and the CKM matrix. This bottom-up approach complements top-down string constructions and our results demonstrate that string FN models possess a sufficiently rich structure to account for flavour physics. On the other hand, the limited number of distinct viable charge patterns identified here indicates that flavour physics imposes tight constraints on string theory models, adding new constraints on particle spectra that are essential for achieving a realistic phenomenology. 

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2. Chiral metamaterial predicted by granular micromechanics: verified with 1D example synthesized using additive manufacturing

   https://doi.org/10.1007/s00161-020-00862-8  

   Misra, Anil; Nejadsadeghi, Nima; De Angelo, Michele; Placidi, Luca (January 2020, Continuum Mechanics and Thermodynamics)

   Granular micromechanics approach (GMA) provides a predictive theory for granular material behavior by connecting the grain-scale interactions to continuum models. Here we have used GMA to predict the closed-form expressions for elastic constants of macro-scale chiral granular metamaterial. It is shown that for macro-scale chirality, the grain-pair interactions must include coupling between normal and tangential deformations. We have designed such a grain-pair connection for physical realization and quantified with FE model. The verification of the prediction is then performed using a physical model of 1D bead string obtained by 3D printing. The behavior is also verified using a discrete model of 1D bead string. 

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3. Goldstino condensation?

   https://doi.org/10.1007/JHEP08(2022)166  

   Kallosh, Renata; Linde, Andrei; Wrase, Timm; Yamada, Yusuke (August 2022, Journal of High Energy Physics)

   A bstract It was argued in [1] that the Volkov-Akulov (VA) model as well as similar models in supergravity and the related KKLT model in string theory, suffer from tachyonic instabilities due to goldstino condensation. The authors of [1] constructed a specific model with two unconstrained interacting chiral superfields with linearly realized supersymmetry which has an unstable vacuum. They claimed that this model becomes equivalent to the VA model in the UV limit. We show that the UV limit of their model is discontinuous, and the vacuum instability of the model proposed in [1] is not relevant to the VA model, to related models in supergravity, and to the KKLT construction. 

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4. Auxiliary field deformations of (semi-)symmetric space sigma models

   https://doi.org/10.1007/JHEP01(2025)096  

   Bielli, Daniele; Ferko, Christian; Smith, Liam; Tartaglino-Mazzucchelli, Gabriele (January 2025, Journal of High Energy Physics)

   A<sc>bstract</sc> We generalize the auxiliary field deformations of the principal chiral model (PCM) introduced in [1] and [2] to sigma models whose target manifolds are symmetric or semi-symmetric spaces, including a Wess-Zumino term in the latter case. This gives rise to a new infinite family of classically integrable ℤ₂and ℤ₄coset models of the form which are of interest in applications of integrability to worldsheet string theory and holography. We demonstrate that every theory in this infinite class admits a zero-curvature representation for its equations of motion by exhibiting a Lax connection. 

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5. Nonmalleable Digital Lockers and Robust Fuzzy Extractors in the Plain Model

   https://doi.org/10.1007/978-3-031-22972-5_13  

   Apon, Daniel; Cachet, Chloe; Fuller, Benjamin; Hall, Peter; Liu, Feng-Hao (January 2023, Advances in Cryptology - Asiacrypt)

   We give the first constructions in the plain model of 1) nonmalleable digital lockers (Canetti and Varia, TCC 2009) and 2) robust fuzzy extractors (Boyen et al., Eurocrypt 2005) that secure sources with entropy below 1/2 of their length. Constructions were previously only known for both primitives assuming random oracles or a common reference string (CRS). Along the way, we define a new primitive called a nonmalleable point function obfuscation with associated data. The associated data is public but protected from all tampering. We use the same paradigm to then extend this to digital lockers. Our constructions achieve nonmalleability over the output point by placing a CRS into the associated data and using an appropriate non-interactive zero-knowledge proof. Tampering is protected against the input point over low-degree polynomials and over any tampering to the output point and associated data. Our constructions achieve virtual black box security. These constructions are then used to create robust fuzzy extractors that can support low-entropy sources in the plain model. By using the geometric structure of a syndrome secure sketch (Dodis et al., SIAM Journal on Computing 2008), the adversary’s tampering function can always be expressed as a low-degree polynomial; thus, the protection provided by the constructed nonmalleable objects suffices. 

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