Irisin Levels Are Lower in Young Amenorrheic Athletes Compared with Eumenorrheic Athletes and Non-Athletes and Are Associated with Bone Density and Strength Estimates

Irisin and FGF21 are novel hormones implicated in the “browning” of white fat, thermogenesis, and energy homeostasis. However, there are no data regarding these hormones in amenorrheic athletes (AA) (a chronic energy deficit state) compared with eumenorrheic athletes (EA) and non-athletes. We hypothesized that irisin and FGF21 would be low in AA, an adaptive response to low energy stores. Furthermore, because (i) brown fat has positive effects on bone, and (ii) irisin and FGF21 may directly impact bone, we hypothesized that bone density, structure and strength would be positively associated with these hormones in athletes and non-athletes. To test our hypotheses, we studied 85 females, 14–21 years [38 AA, 24 EA and 23 non-athletes (NA)]. Fasting serum irisin and FGF21 were measured. Body composition and bone density were assessed using dual energy X-ray absorptiometry, bone microarchitecture using high resolution peripheral quantitative CT, strength estimates using finite element analysis, resting energy expenditure (REE) using indirect calorimetry and time spent exercising/week by history. Subjects did not differ for pubertal stage. Fat mass was lowest in AA. AA had lower irisin and FGF21 than EA and NA, even after controlling for fat and lean mass. Across subjects, irisin was positively associated with REE and bone density Z-scores, volumetric bone mineral density (total and trabecular), stiffness and failure load. FGF21 was negatively associated with hours/week of exercise and cortical porosity, and positively with fat mass and cortical volumetric bone density. Associations of irisin (but not FGF21) with bone parameters persisted after controlling for potential confounders. In conclusion, irisin and FGF21 are low in AA, and irisin (but not FGF21) is independently associated with bone density and strength in athletes

Ultrafast terahertz field control of the emergent magnetic and electronic interactions at oxide interfaces

Ultrafast electric-field control of emergent electronic and magnetic states at oxide interfaces offers exciting prospects for the development of new generations of energy-efficient devices. Here, we demonstrate that the electronic structure and emergent ferromagnetic interfacial state in epitaxial LaNiO3/CaMnO3 superlattices can be effectively controlled using intense single-cycle THz electric-field pulses. We employ a combination of polarization-dependent X-ray absorption spectroscopy with magnetic circular dichroism and X-ray resonant magnetic reflectivity to measure a detailed magneto-optical profile and thickness of the ferromagnetic interfacial layer. Then, we use time-resolved and temperature-dependent magneto-optical Kerr effect, along with transient optical reflectivity and transmissivity measurements, to disentangle multiple correlated electronic and magnetic processes driven by ultrafast high-field (~1 MV/cm) THz pulses. These processes include an initial sub-picosecond electronic response, consistent with non-equilibrium Joule heating; a rapid (~270 fs) demagnetization of the ferromagnetic interfacial layer, driven by THz-field-induced nonequilibrium spin-polarized currents; and subsequent multi-picosecond dynamics, possibly indicative of a change in the magnetic state of the superlattice due to the transfer of spin angular momentum to the lattice. Our findings shed light on the intricate interplay of electronic and magnetic phenomena in this strongly correlated material system, suggesting a promising avenue for efficient control of two-dimensional ferromagnetic states at oxide interfaces using ultrafast electric-field pulses

Direct experimental evidence of tunable charge transfer at the LaNiO3/CaMnO3LaNiO_{3}/CaMnO_{3} ferromagnetic interface

Interfacial charge transfer in oxide heterostructures gives rise to a rich variety of electronic and magnetic phenomena. Designing heterostructures where one of the thin-film components exhibits a metal-insulator transition opens a promising avenue for controlling such phenomena both statically and dynamically. In this letter, we utilize a combination of depth-resolved soft X-ray standing-wave and hard X-ray photoelectron spectroscopies in conjunction with polarization-dependent X-ray absorption spectroscopy to investigate the effects of the metal-insulator transition in $LaNiO_{3}$ on the electronic and magnetic states at the $LaNiO_{3}/CaMnO_{3}$ interface. We report on a direct observation of the reduced effective valence state of the interfacial Mn cations in the metallic superlattice with an above-critical $LaNiO_{3}$ thickness (6 u.c.) due to the leakage of itinerant Ni 3d $e_{g}$ electrons into the interfacial $CaMnO_{3}$ layer. Conversely, in an insulating superlattice with a below-critical $LaNiO_{3}$ thickness of 2 u.c., a homogeneous effective valence state of Mn is observed throughout the $CaMnO_{3}$ layers due to the blockage of charge transfer across the interface. The ability to switch and tune interfacial charge transfer enables precise control of the emergent ferromagnetic state at the $LaNiO_{3}/CaMnO_{3}$ interface and, thus, has far-reaching consequences on the future strategies for the design of next-generation spintronic devices

Il tensore energia-impulso per un fluido perfetto in relatività ristretta e generale

Con questo lavoro si vuole discutere la connessione esistente tra l' equazione di continuità e l'equazione del moto di un fluido perfetto in Relatività Ristretta e Generale. Dapprima forniremo una breve introduzione sulle basi della Relatività Ristretta , introducendo il tensore energia-impulso ed analizzando in maniera specifica tale tensore per un fluido perfetto, ricavandone le equazioni del moto. Forniremo un secondo esempio di tensore Energia-Impulso per la materia incoerente. Conclusa questa argomentazione ci concentreremo sulla Relatività Generale, analizzandone i principi che sono alla base e privilegiando tra questi il Principio di Covarianza Generale come linea guida per le argomentazioni logiche. In maniera analoga a quanto fatto per la Relatività Ristretta riprenderemo la discussione per il tensore energia-impulso per un fluido perfetto dal punto di vista della Relatività Generale , soffermandoci nel caso di equilibrio idrostatico. Sempre nel contesto della Relatività Generale verrà in ultima analisi discusso il concetto di fluido incoerente e moto geodetico. L'ultimo capitolo è dedicato ad una appendice matematica nel quale vengono ricordati alcuni risultati dell'analisi tensoriali utili nel seguire i calcoli effettuati

Parameters affecting the performance of WDM-DPSK systems based on SOA amplifiers

We determine the key physical parameters affecting the design of SOA-based WDM- DPSK systems. System limitations critically depend on the interplay of accumulated fiber dispersion, the SOA input power and the DPSK detection technique

The morphemes of the eyelids

The paper presents some empirical studies aimed at singling out the meanings of specific items of gaze. It further argues that the values on some parameters of gaze items are not comparable to phonemes in a verbal language, but rather to morphemes, since by themselves they convey some specific meanings. A fourth study is presented that, through qualitative analysis of open questions, finds recurrent meanings in items of gaze with wide open upper eyelids and half closed open eyelids