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1. Embedding hypertrees into steiner triple systems

   https://doi.org/10.1002/jcd.21641  

   Elliott, Bradley; Rödl, Vojtěch (November 2018, Journal of Combinatorial Designs)

   Abstract In this paper, we are interested in the following question: given an arbitrary Steiner triple systemonvertices and any 3‐uniform hypertreeonvertices, is it necessary thatcontainsas a subgraph provided? We show the answer is positive for a class of hypertrees and conjecture that the answer is always positive. 

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2. Influence of water activity on belite (β‐C ₂ S) hydration

   https://doi.org/10.1111/jace.17608  

   Cook, Rachel; Ma, Hongyan; Okoronkwo, Monday; Sant, Gaurav; Kumar, Aditya (December 2020, Journal of the American Ceramic Society)

   Abstract The hydration of the two most reactive phases of ordinary Portland cement (OPC), tricalcium silicate (C₃S), and tricalcium aluminate (C₃A) is successfully halted when the activity of water () falls below critical thresholds of 0.70 and 0.45, respectively. It has been established that the reduction in relative humidity (RH) and suppresses the hydration of all anhydrous phases in OPC, including less explored phases like dicalcium silicate, that is, belite (β‐C₂S). However, the degree of suppression, that is, the critical threshold, for β‐C₂S, standalone has yet to be established. This study utilizes isothermal microcalorimetry and X‐ray diffraction techniques to elucidate the influence ofon the hydration of‐C₂S suspensions via incremental replacements of water with isopropanol (IPA). Experimentally, this study shows that with increasing IPA replacements, hydration is increasingly suppressed until eventually brought to a halt at a critical threshold of approximately 27.7% IPA on a weight basis (wt.%_IPA). From thermodynamic estimations, the exact criticalthreshold and solubility product constant of‐C₂S () are established as 0.913 and 10^−12.68, respectively. This study enables enhanced understanding of β‐C₂S reactivity and provides thermodynamic parameters during the hydration of β‐C₂S‐containing cementitious systems such as OPC‐based and calcium aluminate‐based systems. 

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3. Electronic Structure and Superconductivity of Compressed Metal Tetrahydrides

   https://doi.org/10.1002/chem.202102679  

   Bi, Tiange; Zurek, Eva (September 2021, Chemistry – A European Journal)

   Abstract Tetrahydrides crystallizing in the ThCr₂Si₂structure type have been predicted to become stable for a plethora of metals under pressure, and some have recently been synthesized. Through detailed first‐principles investigations we show that the metal atoms within thesesymmetry MH₄compounds may be divalent, trivalent or tetravalent. The valence of the metal atom and its radius govern the bonding and electronic structure of these phases, and their evolution under pressure. The factors important for enhancing superconductivity include a large number of hydrogenic states at the Fermi level, and the presence of quasi‐molecular Hunits whose bonds have been stretched and weakened (but not broken) via electron transfer from the electropositive metal, and via a Kubas‐like interaction with the metal. Analysis of the microscopic mechanism of superconductivity in MgH₄, ScH₄and ZrH₄reveals that phonon modes involving a coupled libration and stretch of the Hunits leading to the formation of more complex hydrogenic motifs are important contributors towards the electron phonon coupling mechanism. In the divalent hydride MgH₄, modes associated with motions of the hydridic hydrogen atoms are also key contributors, and soften substantially at lower pressures. 

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4. Influence of Thermal Stratification on the Structure and Evolution of the Martian Core

   https://doi.org/10.1029/2021GL095198  

   Greenwood, Sam; Davies, Christopher J.; Pommier, Anne (November 2021, Geophysical Research Letters)

   Abstract The apparent end of the internally generated Martian magnetic field at 3.6–4.1 Ga is a key event in Martian history and has been linked to insufficient core cooling. We investigate the thermal and magnetic evolution of the Martian core and mantle using parameterized models and considered three improvements on previous studies. First, our models account for thermal stratification in the core. Second, the models are constrained by estimates for the present‐day areotherm. Third, we consider core thermal conductivity,, values in the range 5–40 Was suggested by recent experiments on iron alloys at Mars core conditions. The majority of our models indicate that the core of Mars is fully conductive at present with core temperatures greater than 1940 K. All of our models are consistent with the range ofW. Models with an activation volume of 6 (0)require a mantle reference viscosity of Pa s. 

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5. Decreased Stratification in the Abyssal Southwest Pacific Basin and Implications for the Energy Budget

   https://doi.org/10.1029/2021GL094322  

   Zhang, Helen J.; Whalen, Caitlin B.; Kumar, Nirnimesh; Purkey, Sarah G. (September 2021, Geophysical Research Letters)

   Abstract As the abyssal oceans warm, stratification is also expected to change in response. This change may impact mixing and vertical transport by altering the buoyancy flux, internal wave generation, and turbulent dissipation. In this study, repeated surveys of three hydrographic sections in the Southwest Pacific Basin between the 1990s and 2010s are used to estimate the change in buoyancy frequency. We find that below the°C isotherm,is on average reduced by a scaling factor of, a 12% reduction, per decade that intensifies with depth. At°C, we observe the biggest change:, or a 29% reduction per decade. Within the same period, the magnitude of vertical diffusive heat flux is also reduced by about, although this estimate is sensitive to the choice of estimated diffusivity. Finally, implications of these results for the heat budget and global ocean circulation are qualitatively discussed. 

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