Exceptional surface and bulk electronic structures in a topological insulator, Bi2Se3

The outstanding problem in topological insulators is the bulk metallicity underneath topologically ordered surface states and the appearance of Dirac point far away from the Fermi energy. Enormous efforts are being devoted to get the Dirac point at the Fermi level via exposure to foreign materials so that these materials can be used in technology and realize novel fundamental physics. Ironically, the conclusion of bulk metallicity in the electronic structure is essentially based on the angle resolved photoemission spectroscopy, a highly surface sensitive technique. Here, we employed state of-the-art hard x-ray photoemission spectroscopy with judiciously chosen experiment geometry to delineate the bulk electronic structure of a topological insulator and a potential thermoelectric material, Bi2Se3. The results exhibit signature of insulating bulk electronic structure with tiny intensities at ef akin to defect/vacancy induced doped states in the semiconductors. The core level spectra exhibit intense plasmon peak associated to core level excitations manifesting the signature of coupling of electrons to the collective excitations, a possible case of plasmon-phonon coupling. In addition, a new loss feature appear in the core level spectra indicating presence of additional collective excitations in the system

Anomalies of a topologically ordered surface

Bulk insulators with strong spin orbit coupling exhibit metallic surface states possessing topological order protected by the time reversal symmetry. However, experiments show vulnerability of topological states to aging and impurities. Different studies show contrasting behavior of the Dirac states along with plethora of anomalies, which has become an outstanding problem in material science. Here, we probe the electronic structure of Bi2Se3 employing high resolution photoemission spectroscopy and discover the dependence of the behavior of Dirac particles on surface terminations. The Dirac cone apex appears at different binding energies and exhibits contrasting shift on Bi and Se terminated surfaces with complex time dependence emerging from subtle adsorbed oxygen-surface atom interactions. These results uncover the surface states behavior of real systems and the dichotomy of topological and normal surface states important for device fabrication as well as realization of novel physics such as Majorana Fermions, magnetic monopole, etc

Factors associated with increased blood loss during delivery

Background: The present study was done to assess the blood loss during delivery even after active management of third stage of labor with oxytocin and the maternal outcomes of PPH.Methods: We studied 100 pregnant women were either in spontaneous labor or admitted for induction of labor, underwent vaginal delivery or caesarean section in our institute. Active management of third stage of labor in all 100 cases included 10 IU intramuscular oxytocin or 10 to 20 IU intravenous in 500 ml of Ringer’s Lactate. Blood loss in all cases was noted.Results: Of the included cases, 27 had to be given extra-uterotonics for atonic uterus, of which 12 parturient still had PPH. Atonic uterus was the cause of PPH in 11 of the 12 cases, while one case was of atonic uterus plus trauma. Half of all PPH cases responded to medical management alone, five cases had to undergo tamponade/stepwise devascularization and one case had to undergo obstetric hysterectomy. Blood loss was significantly higher in women aged more than 35 years, primigravida, not in labor, oligohydramnios or post-datism, elective LSCS, scarred uterus in and had more than 1 high risk factor. Among various high-risk conditions, significantly higher blood loss was observed in patients with chronic hypertension, gestational hypertension, pre-gestational diabetes mellitus, multipara with prior PPH, placenta previa, preeclampsia and sickle cell trait.Conclusions: Fifteen women avoided PPH by using a reliable method of blood loss measurement and initiating interventions early. Organized PPH management protocol morbidity and mortality of the mother and neonate can be prevented

Influence of magnetic domain walls on all-optical magnetic toggle switching in a ferrimagnetic GdFe film

We present a microscopic magnetic domain imaging study of single-shot all-optical magnetic toggle switching of a ferrimagnetic Gd(26)Fe(74) film with out-of-plane easy axis of magnetization by X-ray magnetic circular dichroism photoelectron emission microscopy. Individual linearly polarized laser pulses of 800 nm wavelength and 100 fs duration above a certain threshold fluence reverse the sample magnetization, independent of the magnetization direction, the so-called toggle switching. Local deviations from this deterministic behavior close to magnetic domain walls are studied in detail. Reasons for nondeterministic toggle switching are related to extrinsic effects, caused by pulse-to-pulse variations of the exciting laser system, and to intrinsic effects related to the magnetic domain structure of the sample. The latter are, on the one hand, caused by magnetic domain wall elasticity, which leads to a reduction of the domain-wall length at features with sharp tips. These features appear after the optical switching at positions where the line of constant threshold fluence in the Gaussian footprint of the laser pulse comes close to an already existing domain wall. On the other hand, we identify the presence of laser-induced domain-wall motion in the toggle-switching event as a further cause for local deviations from purely deterministic toggle switching

Anestro pós-parto em ovelhas de diferentes raças. Efeitos do regime de amamentação

Este trabalho teve como principal objectivo estudar o efeito de dois regimes diferentes de amamentação – permanente ou apenas durante a noite – sobre o anestro fisiológico pós-parto, em ovelhas da raça autóctone portuguesa Churra da Terra Quente (CTQ) e da raça exótica Ile de France (IF), paridas no período de Inverno - Primavera. Para o efeito, utilizou-se um total de 46 ovelhas da raça CTQ e 32 da raça IF. Considerámos que as ovelhas tinham ovulado após o parto, quando os níveis plasmáticos de progesterona se elevaram, pela primeira vez, acima dos 0,5 ng/ml (PSCPP). De acordo com os resultados alcançados, o regime de amamentação aplicado não afectou significativamente o anestro pós-parto das ovelhas CTQ e IF

Thermal- and Light-Induced Spin-Crossover Characteristics of a Functional Iron(II) Complex at Submonolayer Coverage on HOPG

Studies on the spin-state switching characteristics of surface-bound thin films of spin-crossover (SCO) complexes are of interest to harness the device utility of the SCO complexes. Molecule–substrate interactions govern the SCO of surface-bound films in direct contact with the underlying substrates. In this study, we elucidate the role of molecule–substrate interactions on the thermal- and light-induced spin-state switching characteristics of a functional SCO-complex—[Fe(H2B(pz)2)2COOC12H25-bipy] (pz = pyrazole, C12-bpy = dodecyl[2,2′-bipyridine]-5-carboxylate) deposited at a submonolayer coverage on a highly oriented pyrolytic graphite (HOPG) substrate. A spin-state coexistence of 42% low-spin (LS) and 58% high-spin (HS) is observed for the 0.4 ML deposit of the complex at 40 K, in contrast to the complete spin-state switching observed in the bulk and in SiOx-bound 10 nm thick films. Cooling the sample to 10 K results in a decrease of the LS fraction to 36%, attributed to soft-X-ray-induced excited spin-state trapping (SOXIESST). Illumination of the sample with a green light (λ = 520 nm) at 10 K caused the LS-to-HS switching of the remaining (36%) LS complexes, by a process termed light-induced excited spin-state trapping (LIESST). The mixed spin-state in the submonolayer coverage of [Fe(H2B(pz)2)2COOC12H25-bipy] highlights the role of molecule–HOPG substrate interactions in tuning the thermal SCO characteristics of the complex. The 100% HS state obtained after light irradiation indicates the occurrence of efficient on-surface light-induced spin switching, encouraging the development of light-addressable molecular devices based on SCO complexes