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1. Celestial gluon and graviton OPE at loop level

   https://doi.org/10.1007/JHEP03(2024)176  

   Krishna, Hare (March 2024, Journal of High Energy Physics)

   A<sc>bstract</sc> In this paper, we analyze the loop corrections to celestial OPE for gluons and gravitons. Even at the loop level, the soft gluons and gravitons have conformal dimensions ∆ = 1−$${\mathbb{Z}}_{\ge 0}$$. The only novelty is the presence of higher poles. At one loop level, there are two types of conformal soft gluons with a single pole and a double pole in the ∆ plane. The celestial OPEs are obtained using the collinear splitting functions. In the case of gluons, the splitting functions receive loop corrections. After taking the holomorphic soft limit, we find the OPE of conformal soft gluons. We find a novel mixing of simple and double poles soft gluon operators in the OPE. In the case of gravitons, where splitting functions are known to be all loop exact, we still find a wedge algebra ofw_∞which is in addition to the wedge algebra ofw_1+∞already found by Strominger. 

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2. N3LO soft-gluon corrections in single-particle-inclusive kinematics and H+H− production

   https://doi.org/10.1007/JHEP06(2024)138  

   Kidonakis, Nikolaos; Tonero, Alberto (June 2024, Journal of High Energy Physics)

   A<sc>bstract</sc> We calculate the complete soft-gluon corrections for the production of colorless final states through N³LO in single-particle-inclusive kinematics. We present explicit analytical results and use them to study higher-order QCD corrections for the production of a heavy charged Higgs pair (H⁺H⁻) via quark-antiquark annihilation in the Two-Higgs-Doublet Model at LHC energies. We calculate the NNLO soft-gluon and virtual QCD corrections as well as the N³LO soft-gluon corrections to the total cross section and the charged-Higgs rapidity distribution. This is the first calculation of complete N³LO soft-gluon corrections for a process in single-particle-inclusive kinematics, and the results can be applied to other processes with colorless final states. 

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3. Deforming soft algebras for gauge theory

   https://doi.org/10.1007/JHEP03(2023)233  

   Melton, Walker; Narayanan, Sruthi A; Strominger, Andrew (March 2023, Journal of High Energy Physics)

   A<sc>bstract</sc> Symmetry algebras deriving from towers of soft theorems can be deformed by a short list of higher-dimension Wilsonian corrections to the effective action. We study the simplest of these deformations in gauge theory arising from a massless complex scalar coupled toF². The soft gauge symmetry ‘s-algebra’, compactly realized as a higher-spin current algebra acting on the celestial sphere, is deformed and enlarged to an associative algebra containing soft scalar generators. This deformed soft algebra is found to be non-abelian even in abelian gauge theory. A two-parameter family of central extensions of thes-subalgebra are generated by shifting and decoupling the scalar generators. It is shown that these central extensions can also be generated by expanding around a certain non-trivial but Lorentz invariant shockwave type background for the scalar field. 

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4. Tooth chipping patterns and dental caries suggest a soft fruit diet in early anthropoids

   https://doi.org/10.1002/ajpa.24884  

   Towle, Ian; Borths, Matthew R; Loch, Carolina (February 2024, American Journal of Biological Anthropology)

   Fossils from the Fayum Depression, Egypt, are crucial for understanding anthropoid evolution due to the abundance of taxa and the time interval they represent (late Eocene to early Oligocene). Dietary and foraging behavioral interpretations suggest fruits were their dominant food source, although hard foods (e.g., seeds and nuts) and leaves could have been important dietary components for particular groups. In this study, we compare dental chipping patterns in five Fayum primate genera with chipping data for extant primates, to assess potential hard object feeding in early anthropoids. Materials and MethodsOriginal specimens were studied (Aegyptopithecus:n = 100 teeth;Parapithecus:n = 72,Propliopithecus:n = 99,Apidium:n = 82;Catopithecus:n = 68); with the number, severity, and position of chips recorded. Dental caries was also recorded, due to its association with soft fruit consumption in extant primates. ResultsTooth chipping was low across all five genera studied, with a pooled chipping prevalence of 5% (21/421). When split into the three anthropoid families represented, chipping prevalence ranged from 2.6% (4/154) in Parapithecidae, 6% (12/199) in Propliopithecidae, and 7.4% (5/68) in Oligopithecidae. Three carious lesions were identified in Propliopithecidae. DiscussionThe chipping prevalence is low when compared to extant anthropoids (range from 4% to 40%) and is consistent with a predominantly soft fruit diet, but not with habitual hard food mastication. The presence of caries supports consumption of soft, sugary fruits, at least in Propliopithecidae. Our results add support for low dietary diversity in early anthropoids, with soft fruits as likely dominant food sources. 

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5. Fiber‐Reinforced Viscoelastomers Show Extraordinary Crack Resistance That Exceeds Metals

   https://doi.org/10.1002/adma.201907180  

   Cui, Wei; King, Daniel_R; Huang, Yiwan; Chen, Liang; Sun, Tao_Lin; Guo, Yunzhou; Saruwatari, Yoshiyuki; Hui, Chung‐Yuen; Kurokawa, Takayuki; Gong, Jian_Ping (June 2020, Advanced Materials)

   Abstract Soft fiber‐reinforced polymers (FRPs), consisting of rubbery matrices and rigid fabrics, are widely utilized in industry because they possess high specific strength in tension while allowing flexural deformation under bending or twisting. Nevertheless, existing soft FRPs are relatively weak against crack propagation due to interfacial delamination, which substantially increases their risk of failure during use. In this work, a class of soft FRPs that possess high specific strength while simultaneously showing extraordinary crack resistance are developed. The strategy is to synthesize tough viscoelastic matrices from acrylate monomers in the presence of woven fabrics, which generates soft composites with a strong interface and interlocking structure. Such composites exhibit fracture energy,Γ, of up to 2500 kJ m⁻², exceeding the toughest existing materials. Experimental elucidation shows that the fracture energy obeys a simple relation,Γ = W · l_T, whereWis the volume‐weighted average of work of extension at fracture of the two components andl_Tis the force transfer length that scales with the square root of fiber/matrix modulus ratio. SuperiorΓis achieved through a combination of extraordinarily largel_T(10–100 mm), resulting from the extremely high fiber/matrix modulus ratios (10⁴–10⁵), and the maximized energy dissipation density,W. The elucidated quantitative relationship provides guidance toward the design of extremely tough soft composites. 

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