97 research outputs found
Linear independence of Gamma values in positive characteristic
We investigate the arithmetic nature of special values of Thakur's function
field Gamma function at rational points. Our main result is that all linear
independence relations over the field of algebraic functions are consequences
of the known relations of Anderson and Thakur arising from the functional
equations of the Gamma function.Comment: 51 page
Pure Anderson Motives and Abelian \tau-Sheaves
Pure t-motives were introduced by G. Anderson as higher dimensional
generalizations of Drinfeld modules, and as the appropriate analogs of abelian
varieties in the arithmetic of function fields. In order to construct moduli
spaces for pure t-motives the second author has previously introduced the
concept of abelian \tau-sheaf. In this article we clarify the relation between
pure t-motives and abelian \tau-sheaves. We obtain an equivalence of the
respective quasi-isogeny categories. Furthermore, we develop the elementary
theory of both structures regarding morphisms, isogenies, Tate modules, and
local shtukas. The later are the analogs of p-divisible groups.Comment: final version as it appears in Mathematische Zeitschrif
Direct observation of light-driven, concerted electron–proton transfer
Concerted proton-coupled electron transfer (EPT) reactions in which both electrons and protons transfer in tandem are at the heart of many chemical and biological conversions including photosystem II. We report here the direct observation of absorption bands arising from photoEPT transitions, in this case, in H-bonded complexes between N-methyl-4,4′-bipyridinium cation and biologically relevant donors including tyrosine. The importance of these observations follows from the earlier experimental observations by Taube and coworkers on intervalence transfer in mixed-valence complexes. The observation of these photoEPT transitions and the appearance of reactive radical products also points to a possible, if inefficient, role in DNA photodamage and, possibly, in the formation of reactive oxygen intermediates
Solar Fuels and Next Generation Photovoltaics: The UNC-CH Energy Frontier Research Center
Imaging the materiality of a diaspora: Recording the biographies of Greek Orthodox church buildings in London
Tannakian duality for Anderson-Drinfeld motives and algebraic independence of Carlitz logarithms
We develop a theory of Tannakian Galois groups for t-motives and relate this
to the theory of Frobenius semilinear difference equations. We show that the
transcendence degree of the period matrix associated to a given t-motive is
equal to the dimension of its Galois group. Using this result we prove that
Carlitz logarithms of algebraic functions that are linearly independent over
the rational function field are algebraically independent.Comment: 39 page
Concerted electron-proton transfer in the optical excitation of hydrogen-bonded dyes
The simultaneous, concerted transfer of electrons and protons—electron-proton transfer (EPT)—is an important mechanism utilized in chemistry and biology to avoid high energy intermediates. There are many examples of thermally activated EPT in ground-state reactions and in excited states following photoexcitation and thermal relaxation. Here we report application of ultrafast excitation with absorption and Raman monitoring to detect a photochemically driven EPT process (photo-EPT). In this process, both electrons and protons are transferred during the absorption of a photon. Photo-EPT is induced by intramolecular charge-transfer (ICT) excitation of hydrogen-bonded-base adducts with either a coumarin dye or 4-nitro-4′-biphenylphenol. Femtosecond transient absorption spectral measurements following ICT excitation reveal the appearance of two spectroscopically distinct states having different dynamical signatures. One of these states corresponds to a conventional ICT excited state in which the transferring H+ is initially associated with the proton donor. Proton transfer to the base (B) then occurs on the picosecond time scale. The other state is an ICT-EPT photoproduct. Upon excitation it forms initially in the nuclear configuration of the ground state by application of the Franck–Condon principle. However, due to the change in electronic configuration induced by the transition, excitation is accompanied by proton transfer with the protonated base formed with a highly elongated +H─B bond. Coherent Raman spectroscopy confirms the presence of a vibrational mode corresponding to the protonated base in the optically prepared state
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Excited State Processes in Transition Metal Complexes, Redox Splitting in Soluble Polymers
The photochemical and photophysical properties of polypyridyl complexes of Ru, Os, and Re have been investigated by transient absorption, emission, resonance raman and infrared spectroscopies. The latter technique has been especially useful in defining the acceptor ligand in metal-to-ligand charge transfer (MLCT) excited states and probing the details of excited state electronic and molecular structure. Derivatives of these complexes have been attached to soluble polystyrene polymers. In the resulting metal complex polymer composites it has been possible to demonstrate long range energy transfer and the existence of an antenna effect and create a mimic for the active site in the photosynthetic membrane
Australian experience of side-to-side isoperistaltic stricturoplasty in Crohn's disease
Background: The Michelassi stricturoplasty has demonstrated efficacy for Crohn's disease in European and American series but has not had uptake in Australia. We report the short-term results of side-to-side isoperistaltic stricturoplasty (SSIS) in an Australian Practice. Methods: Between March 2015 and October 2021 SSIS procedures were performed on Crohn's patients with long segment Crohn's strictures associated with obstructive symptoms, despite best medical therapy. Surgical demographics and results were recorded via inpatient and outpatient follow-up in a prospective database. Results: Twenty-one SSIS performed in 16 patients, nine female, mean age 40 years. Single incision laparoscopic surgery (SILS) was used in 10 patients. The standard Michelassi SSIS used for 11 strictures and a Poggioli variant used for 10. Mean stricture length 32 cm (range 5–100); mean SSIS length 24 cm (range 6–55). Associated bowel resection in seven cases with a mean length of 47 mm. Ten patients had an average of three additional stricturoplasties. Complications included central line sepsis in one, deep surgical site infection in one and superficial wound infection in four patients. Mean duration of operation; 346 min and length of stay 10 days. Conclusion: SSIS techniques are safe for the management of long segment stricturing Crohn's disease. Although not widely used in Australia, surgeons should consider the Michelassi stricturoplasty, and its variants, for long Crohn's strictures as they are isoperistaltic whilst avoiding bowel resection and blind pouches
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