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1. Phenomenology of superheavy decaying dark matter from string theory

   https://doi.org/10.1007/JHEP02(2024)192  

   Allahverdi, Rouzbeh; Arina, Chiara; Chianese, Marco; Cicoli, Michele; Maltoni, Fabio; Massaro, Daniele; Osiński, Jacek K (February 2024, Journal of High Energy Physics)

   A<sc>bstract</sc> We study the phenomenology of superheavy decaying dark matter with mass around 10¹⁰GeV which can arise in the low-energy limit of string compactifications. Generic features of string theory setups (such as high scale supersymmetry breaking and epochs of early matter domination driven by string moduli) can accommodate superheavy dark matter with the correct relic abundance. In addition, stringy instantons induce tinyR-parity violating couplings which make dark matter unstable with a lifetime well above the age of the Universe. Adopting a model-independent approach, we compute the flux and spectrum of high-energy gamma rays and neutrinos from three-body decays of superheavy dark matter and constrain its mass-lifetime plane with current observations and future experiments. We show that these bounds have only a mild dependence on the exact nature of neutralino dark matter and its decay channels. Applying these constraints to an explicit string model sets an upper bound of$$ \mathcal{O} $$ $O$(0.1) on the string coupling, ensuring that the effective field theory is in the perturbative regime. 

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2. Null states and time evolution in a toy model of black hole dynamics

   https://doi.org/10.1007/JHEP08(2024)199  

   Dong, Xi; Kolanowski, Maciej; Liu, Xiaoyi; Marolf, Donald; Wang, Zhencheng (August 2024, Journal of High Energy Physics)

   A<sc>bstract</sc> Spacetime wormholes can provide non-perturbative contributions to the gravitational path integral that make the actual number of statese^Sin a gravitational system much smaller than the number of states$$ {e}^{S_{\textrm{p}}} $$ $e^{S_p}$predicted by perturbative semiclassical effective field theory. The effects on the physics of the system are naturally profound in contexts in which the perturbative description actively involvesN=O(e^S) of the possible$$ {e}^{S_{\textrm{p}}} $$ $e^{S_p}$perturbative states; e.g., in late stages of black hole evaporation. Such contexts are typically associated with the existence of non-trivial quantum extremal surfaces. However, by forcing a simple topological gravity model to evolve in time, we find that such effects can also have large impact forN≪e^S(in which case no quantum extremal surfaces can arise). In particular, even for smallN, the insertion of generic operators into the path integral can cause the non-perturbative time evolution to differ dramatically from perturbative expectations. On the other hand, this discrepancy is small for the special case where the inserted operators are non-trivial only in a subspace of dimensionD≪e^S. We thus study this latter case in detail. We also discuss potential implications for more realistic gravitational systems. 

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3. The ZZ annulus one-point function in non-critical string theory: A string field theory analysis

   https://doi.org/10.1007/JHEP12(2022)151  

   Eniceicu, Dan Stefan; Mahajan, Raghu; Maity, Pronobesh; Murdia, Chitraang; Sen, Ashoke (December 2022, Journal of High Energy Physics)

   A<sc>bstract</sc> We compute the ZZ annulus one-point function of the cosmological constant operator in non-critical string theory, regulating divergences from the boundaries of moduli space using string field theory. We identify a subtle issue in a previous analysis of these divergences, which was done in the context of thec= 1 string theory, and where it had led to a mismatch with the prediction from the dual matrix quantum mechanics. After fixing this issue, we find a precise match to the expected answer in both thec< 1 andc= 1 cases. We also compute the disk two-point function, which is a quantity of the same order, and show that it too matches with the general prediction. 

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4. 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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5. Multi-instantons in minimal string theory and in matrix integrals

   https://doi.org/10.1007/JHEP10(2022)065  

   Eniceicu, Dan Stefan; Mahajan, Raghu; Murdia, Chitraang; Sen, Ashoke (October 2022, Journal of High Energy Physics)

   A<sc>bstract</sc> We compute the normalization of the general multi-instanton contribution to the partition function of (p′,p) minimal string theory and also to the dual two-matrix integral. We find perfect agreement between the two results. 

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