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Understanding how microscopic spin configuration gives rise to exotic properties at the macroscopic length scale has long been pursued in magnetic materials1-5. One seminal example is the Einstein-de Haas effect in ferromagnets1,6,7, in which angular momentum of spins can be converted into mechanical rotation of an entire object. However, for antiferromagnets without net magnetic moment, how spin ordering couples to macroscopic movement remains elusive. Here we observed a seesaw-like rotation of reciprocal lattice peaks of an antiferromagnetic nanolayer film, whose gigahertz structural resonance exhibits more than an order-of-magnitude amplification after cooling below the Néel temperature. Using a suite of ultrafast diffraction and microscopy techniques, we directly visualize this spin-driven rotation in reciprocal space at the nanoscale. This motion corresponds to interlayer shear in real space, in which individual micro-patches of the film behave as coherent oscillators that are phase-locked and shear along the same in-plane axis. Using time-resolved optical polarimetry, we further show that the enhanced mechanical response strongly correlates with ultrafast demagnetization, which releases elastic energy stored in local strain gradients to drive the oscillators. Our work not only offers the first microscopic view of spin-mediated mechanical motion of an antiferromagnet but it also identifies a new route towards realizing high-frequency resonators8,9 up to the millimetre band, so the capability of controlling magnetic states on the ultrafast timescale10-13 can be readily transferred to engineering the mechanical properties of nanodevices.
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Understanding the interplay between charge, nematic, and structural ordering tendencies in cuprate superconductors is critical to unraveling their complex phase diagram. Using pump-probe time-resolved resonant X-ray scattering on the (0 0 1) Bragg peak at the Cu [Formula: see text] and O [Formula: see text] resonances, we investigate nonequilibrium dynamics of [Formula: see text] nematic order and its association with both charge density wave (CDW) order and lattice dynamics in La[Formula: see text]Eu[Formula: see text]Sr[Formula: see text]CuO[Formula: see text]. The orbital selectivity of the resonant X-ray scattering cross-section allows nematicity dynamics associated with the planar O 2[Formula: see text] and Cu 3[Formula: see text] states to be distinguished from the response of anisotropic lattice distortions. A direct time-domain comparison of CDW translational-symmetry breaking and nematic rotational-symmetry breaking reveals that these broken symmetries remain closely linked in the photoexcited state, consistent with the stability of CDW topological defects in the investigated pump fluence regime.
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Topological quantum materials exhibit fascinating properties1-3, with important applications for dissipationless electronics and fault-tolerant quantum computers4,5. Manipulating the topological invariants in these materials would allow the development of topological switching applications analogous to switching of transistors6. Lattice strain provides the most natural means of tuning these topological invariants because it directly modifies the electron-ion interactions and potentially alters the underlying crystalline symmetry on which the topological properties depend7-9. However, conventional means of applying strain through heteroepitaxial lattice mismatch10 and dislocations11 are not extendable to controllable time-varying protocols, which are required in transistors. Integration into a functional device requires the ability to go beyond the robust, topologically protected properties of materials and to manipulate the topology at high speeds. Here we use crystallographic measurements by relativistic electron diffraction to demonstrate that terahertz light pulses can be used to induce terahertz-frequency interlayer shear strain with large strain amplitude in the Weyl semimetal WTe2, leading to a topologically distinct metastable phase. Separate nonlinear optical measurements indicate that this transition is associated with a symmetry change to a centrosymmetric, topologically trivial phase. We further show that such shear strain provides an ultrafast, energy-efficient way of inducing robust, well separated Weyl points or of annihilating all Weyl points of opposite chirality. This work demonstrates possibilities for ultrafast manipulation of the topological properties of solids and for the development of a topological switch operating at terahertz frequencies.
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Manipulating the polarization of light at the nanoscale is key to the development of next-generation optoelectronic devices. This is typically done via waveplates using optically anisotropic crystals, with thicknesses on the order of the wavelength. Here, using a novel ultrafast electron-beam-based technique sensitive to transient near fields at THz frequencies, we observe a giant anisotropy in the linear optical response in the semimetal WTe2 and demonstrate that one can tune the THz polarization using a 50 nm thick film, acting as a broadband wave plate with thickness 3 orders of magnitude smaller than the wavelength. The observed circular deflections of the electron beam are consistent with simulations tracking the trajectory of the electron beam in the near field of the THz pulse. This finding offers a promising approach to enable atomically thin THz polarization control using anisotropic semimetals and defines new approaches for characterizing THz near-field optical response at far-subwavelength length scales.
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For many chemical reactions, it remains notoriously difficult to predict and experimentally determine the rates and branching ratios between different reaction channels. This is particularly the case for reactions involving short-lived intermediates, whose observation requires ultrafast methods. The UV photochemistry of bromoform (CHBr3) is among the most intensely studied photoreactions. Yet, a detailed understanding of the chemical pathways leading to the production of atomic Br and molecular Br2 fragments has proven challenging. In particular, the role of isomerization and/or roaming and their competition with direct C-Br bond scission has been a matter of continued debate. Here, gas-phase ultrafast megaelectronvolt electron diffraction (MeV-UED) is used to directly study structural dynamics in bromoform after single 267 nm photon excitation with femtosecond temporal resolution. The results show unambiguously that isomerization contributes significantly to the early stages of the UV photochemistry of bromoform. In addition to direct C-Br bond breaking within <200 fs, formation of iso-CHBr3 (Br-CH-Br-Br) is observed on the same time scale and with an isomer lifetime of >1.1 ps. The branching ratio between direct dissociation and isomerization is determined to be 0.4 ± 0.2:0.6 ± 0.2, i.e., approximately 60% of molecules undergo isomerization within the first few hundred femtoseconds after UV excitation. The structure and time of formation of iso-CHBr3 compare favorably with the results of an ab initio molecular dynamics simulation. The lifetime and interatomic distances of the isomer are consistent with the involvement of a roaming reaction mechanism.
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Identifying multiple rival reaction products and transient species formed during ultrafast photochemical reactions and determining their time-evolving relative populations are key steps toward understanding and predicting photochemical outcomes. Yet, most contemporary ultrafast studies struggle with clearly identifying and quantifying competing molecular structures/species among the emerging reaction products. Here, we show that mega-electronvolt ultrafast electron diffraction in combination with ab initio molecular dynamics calculations offer a powerful route to determining time-resolved populations of the various isomeric products formed after UV (266 nm) excitation of the five-membered heterocyclic molecule 2(5H)-thiophenone. This strategy provides experimental validation of the predicted high (â¼50%) yield of an episulfide isomer containing a strained three-membered ring within â¼1 ps of photoexcitation and highlights the rapidity of interconversion between the rival highly vibrationally excited photoproducts in their ground electronic state.
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Strong coupling between light and mechanical strain forms the foundation for next-generation optical micro- and nano-electromechanical systems. Such optomechanical responses in two-dimensional materials present novel types of functionalities arising from the weak van der Waals bond between atomic layers. Here, by using structure-sensitive megaelectronvolt ultrafast electron diffraction, we report the experimental observation of optically driven ultrafast in-plane strain in the layered group IV monochalcogenide germanium sulfide (GeS). Surprisingly, the photoinduced structural deformation exhibits strain amplitudes of order 0.1% with a 10 ps fast response time and a significant in-plane anisotropy between zigzag and armchair crystallographic directions. Rather than arising due to heating, experimental and theoretical investigations suggest deformation potentials caused by electronic density redistribution and converse piezoelectric effects generated by photoinduced electric fields are the dominant contributors to the observed dynamic anisotropic strains. Our observations define new avenues for ultrafast optomechanical control and strain engineering within functional devices.
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MXenes have the potential for efficient light-to-heat conversion in photothermal applications. To effectively utilize MXenes in such applications, it is important to understand the underlying nonequilibrium processes, including electron-phonon and phonon-phonon couplings. Here, we use transient electron and X-ray diffraction to investigate the heating and cooling of photoexcited MXenes at femtosecond to nanosecond time scales. Our results show extremely strong electron-phonon coupling in Ti3C2-based MXenes, resulting in lattice heating within a few hundred femtoseconds. We also systematically study heat dissipation in MXenes with varying film thicknesses, chemical surface terminations, flake sizes, and annealing conditions. We find that the thermal boundary conductance (TBC) governs the thermal relaxation in films thinner than the optical penetration depth. We achieve a 2-fold enhancement of the TBC, reaching 20 MW m-2 K-1, by controlling the flake size or chemical surface termination, which is promising for engineering heat dissipation in photothermal and thermoelectric applications of the MXenes.
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Relaxor ferroelectrics have been intensely studied for decades based on their unique electromechanical responses which arise from local structural heterogeneity involving polar nanoregions or domains. Here, we report first studies of the ultrafast dynamics and reconfigurability of the polarization in freestanding films of the prototypical relaxor 0.68PbMg1/3Nb2/3O3-0.32PbTiO3 (PMN-0.32PT) by probing its atomic-scale response via femtosecond-resolution, electron-scattering approaches. By combining these structural measurements with dynamic phase-field simulations, we show that femtosecond light pulses drive a change in both the magnitude and direction of the polarization vector within polar nanodomains on few-picosecond time scales. This study defines new opportunities for dynamic reconfigurable control of the polarization in nanoscale relaxor ferroelectrics.
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ElétronsRESUMO
Transgender (trans) people face high rates of sexual assault and often encounter systemic barriers in accessing appropriate care and supports, including, among others, stigma, discrimination, and a lack of provider knowledge. Trans communities and allies in research and the service sector have emphasized the potential of advocacy as a tool to dismantle barriers for trans people; however, to date, few advocacy efforts have been undertaken in the sexual assault context. To address this gap, we developed and implemented #TRANSformativeKnowledge, a social media campaign to promote awareness among providers about the damaging attitudes, beliefs, and reactions that often impede trans survivors' access to appropriate services. Based on insights from a recorded consultation with trans community members and health and social service professionals, we designed seven posters for circulation on Twitter, each containing a representative quote, key message, and associated call to action. The campaign was launched May 17, 2021, with posters Tweeted twice weekly, including one final summary post on June 30, 2021. The campaign reached approximately 100,000 Twitter users, with almost 2,000 engagements. As demonstrated by these findings, our social media advocacy campaign represents a viable method for disseminating knowledge about sexual assault against trans people, which could be replicated by others aspiring to advance health equity through advocacy.
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Delitos Sexuais , Mídias Sociais , Humanos , Acessibilidade aos Serviços de Saúde , Delitos Sexuais/prevenção & controle , Serviço Social , AtitudeRESUMO
Engineering novel states of matter with light is at the forefront of materials research. An intensely studied direction is to realize broken-symmetry phases that are "hidden" under equilibrium conditions but can be unleashed by an ultrashort laser pulse. Despite a plethora of experimental discoveries, the nature of these orders and how they transiently appear remain unclear. To this end, we investigate a nonequilibrium charge density wave (CDW) in rare-earth tritellurides, which is suppressed in equilibrium but emerges after photoexcitation. Using a pump-pump-probe protocol implemented in ultrafast electron diffraction, we demonstrate that the light-induced CDW consists solely of order parameter fluctuations, which bear striking similarities to critical fluctuations in equilibrium despite differences in the length scale. By calculating the dynamics of CDW fluctuations in a nonperturbative model, we further show that the strength of the light-induced order is governed by the amplitude of equilibrium fluctuations. These findings highlight photoinduced fluctuations as an important ingredient for the emergence of transient orders out of equilibrium. Our results further suggest that materials with strong fluctuations in equilibrium are promising platforms to host hidden orders after laser excitation.
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Acquired idiopathic generalized anhidrosis (AIGA) is a rare disorder characterized by insidious or sudden onset of the inability to sweat involving >25% of body surface area in the absence of other neurologic or sweat gland abnormalities and typically affects young, healthy, Asian men. Here, we describe two Caucasian teenagers with the diagnosis. They both had variable responses to prednisone, one in the setting of an elevated ANA, suggesting an autoimmune or inflammatory pathomechanism of the disorder. It is essential the clinician recognizes this rare entity and initiates timely intervention to prevent the serious consequences of hyperpyrexia.
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Hipo-Hidrose , Adolescente , Humanos , Hipo-Hidrose/diagnóstico , MasculinoRESUMO
Methotrexate therapy has evolved over the years to become a fundamental component in the management of rheumatoid arthritis and psoriasis. Liver toxicity remains an ever-present concern when prescribing methotrexate. As such, methotrexate liver toxicity monitoring guidelines have been developed independently by rheumatologists and dermatologists. The main differentiating factor between the dermatology and rheumatology guidelines is risk stratification. Dermatology guidelines are largely based off of the presence or absence of hepatoxicity risk factors (alcohol usage, obesity, type II diabetes, among other) while the rheumatology guidelines do not emphasize this distinction. Thus, the aim of this review is to identify why these screening guidelines differences exist and discuss if the differences in stratification and screening are valid. We will also briefly examine alternatives to the current gold standard hepatoxicity screening test: the liver biopsy.
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Artrite Reumatoide , Doença Hepática Induzida por Substâncias e Drogas , Diabetes Mellitus Tipo 2 , Psoríase , Artrite Reumatoide/diagnóstico , Artrite Reumatoide/tratamento farmacológico , Doença Hepática Induzida por Substâncias e Drogas/diagnóstico , Doença Hepática Induzida por Substâncias e Drogas/epidemiologia , Doença Hepática Induzida por Substâncias e Drogas/etiologia , Consenso , Humanos , Metotrexato/efeitos adversos , Psoríase/diagnóstico , Psoríase/tratamento farmacológicoRESUMO
We design and realize an arrival time diagnostic for ultrashort X-ray pulses achieving unprecedented high sensitivity in the soft X-ray regime via cross-correlation with a ≈1550 nm optical laser. An interferometric detection scheme is combined with a multi-layer sample design to greatly improve the sensitivity of the measurement. We achieve up to 275% of relative signal change when exposed to 1.6 mJ/cm2 of soft X-rays at 530 eV, more than a hundred-fold improvement in sensitivity as compared to previously reported techniques. The resolution of the arrival time measurement is estimated to around 2.8 fs (rms). The demonstrated X-ray arrival time monitor paves the way for sub-10 fs-level timing jitter at high repetition rate X-ray facilities.
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For LCLS-II, a fluorescence intensity monitor for the non-invasive, pulse-by-pulse normalization of experiments has been developed. A prototype diagnostic was constructed with a microchannel plate assembly and two photodiodes. The diagnostic was then installed in the LCLS SXR instrument Kirkpatrick-Baez mirror chamber with the detectors located above the vertically reflecting mirror. The linearity, noise and position sensitivity of the detectors have been characterized. The photodiode responsivity is suitable for high pulse energies. The microchannel plate detector shows sufficient responsivity over a wide range of pulse energies. The relative signal from the two photodiodes provides a sensitive measure of the X-ray beam position. The fluorescence intensity monitor provides intensity normalization while being compatible with high incident power, a 0.93â MHz repetition rate and ultra-high vacuum.
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Fluorescência , Lasers , Aceleradores de Partículas/instrumentação , Elétrons , Desenho de Equipamento , Fótons , Espalhamento de Radiação , Raios XRESUMO
INTRODUCTION: Cultural values and parent-adolescent relationships may impact adolescents' romantic relationship quality. The goal of this study was to examine whether perceived mothers' and fathers' psychological control and gender moderated associations between cultural values (i.e., machismo, caballerismo, views of female virginity) and romantic relationship satisfaction in Mexican adolescents. METHODS: Self-report survey data were collected from 213 adolescents (Mâ¯=â¯14.59 years old; 50.5% girls) from two public schools in Mexico. All participants were in a romantic relationship at time of study, and reported on their age, gender, endorsement of cultural values (i.e., machismo, caballerismo, views of female virginity), perceived parental psychological control, and romantic satisfaction. Exploratory and confirmatory factor analyses were conducted on a romantic relationship satisfaction scale. Multiple regression analyses were conducted to assess interactions between cultural values, mothers' and fathers' psychological control, and gender on romantic relationship satisfaction. RESULTS: Findings revealed adolescents who endorsed caballerismo reported higher relationship satisfaction. These associations were strongest for adolescent girls reporting low maternal psychological control and adolescent boys reporting high maternal psychological control. Perceived fathers' psychological control did not moderate associations between cultural values and romantic satisfaction. No associations were found between machismo, female virginity, and romantic relationship satisfaction. CONCLUSION: Adolescents' caballersimo values were linked to higher relationship satisfaction. Findings suggest that parent education programs in Mexico may benefit from teaching parents to instill values of caballerismo in their romantically involved adolescents. Additionally, specialists working with Mexican adolescent girls may help them reframe perceived psychologically controlling behaviors into attempts to communicate affection.
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Comportamento do Adolescente/psicologia , Características Culturais , Relações Interpessoais , Relações Pais-Filho , Adolescente , Pai/psicologia , Feminino , Humanos , Masculino , México , Mães/psicologia , Satisfação Pessoal , Pesquisa Qualitativa , Autorrelato , Fatores SexuaisRESUMO
OBJECTIVES: This study examined whether maternal depressive symptoms moderated the association between mothers' and daughters' ethnic identity commitment. METHOD: The sample included 165 (69% Latina, 26% African American/Black, and 5% Asian, Native American, or Middle Eastern) mother-adolescent daughter dyads. Mothers' self-reported on their ethnic identity commitment and depressive symptoms, and adolescent daughters self-reported on their ethnic identity commitment. RESULTS: After controlling for adolescent age and language, results revealed no association between mothers' and daughters' ethnic identity commitment. However, a 2-way interaction was found. Mothers' and daughters' ethnic identity commitment were positively related when mothers reported low depressive symptoms, and negatively related when mothers reported high depressive symptoms. CONCLUSIONS: Family clinicians who work to strengthen positive self-concepts in girls of color should consider promoting their mothers' attachment to their ethnic group and treating existing maternal depressive symptoms. (PsycINFO Database Record (c) 2019 APA, all rights reserved).
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Depressão/psicologia , Etnicidade/psicologia , Relações Mãe-Filho , Mães/psicologia , Núcleo Familiar/psicologia , Adolescente , Adulto , Depressão/etnologia , Feminino , Humanos , Pessoa de Meia-Idade , Autoimagem , AutorrelatoRESUMO
This primer focuses on the diagnosis and treatment of urticaria. All forms have in common the release of histamine with resultant pruritis. Causes include allergies, medications, infections, cold, heat, and pressure with many being defined as idiopathic. Most diagnoses require only a history and physical examination. Treatments normally include non-sedating antihistamines and avoidances but may require systemic steroids, H2 or leukotriene blockers, immunosuppressants, or anti-IgE therapy. While some forms are short lived, many are recurrent for years. Relief from the pruritis should be expected.
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Antagonistas dos Receptores Histamínicos H1 , Urticária , Doença Crônica , Antagonistas dos Receptores Histamínicos H1/uso terapêutico , Humanos , Imunossupressores/uso terapêutico , Urticária/diagnóstico , Urticária/tratamento farmacológicoRESUMO
Sleep is known to play an active role in consolidating new vocabulary in adults; however, the mechanisms by which sleep promotes vocabulary consolidation in childhood are less well understood. Furthermore, there has been no investigation into whether previously reported differences in sleep architecture might account for variability in vocabulary consolidation in children with dyslexia. Twenty-three children with dyslexia and 29 age-matched typically developing peers were exposed to 16 novel spoken words. Typically developing children showed overnight improvements in novel word recall; the size of the improvement correlated positively with slow wave activity, similar to previous findings with adults. Children with dyslexia showed poorer recall of the novel words overall, but nevertheless showed overnight improvements similar to age-matched peers. However, comparisons with younger children matched on initial levels of novel word recall pointed to reduced consolidation in dyslexics after 1 week. Crucially, there were no significant correlations between overnight consolidation and sleep parameters in the dyslexic group. This suggests a reduced role of sleep in vocabulary consolidation in dyslexia, possibly as a consequence of lower levels of learning prior to sleep, and highlights how models of sleep-associated memory consolidation can be usefully informed by data from typical and atypical development.
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Dislexia/fisiopatologia , Desenvolvimento da Linguagem , Consolidação da Memória/fisiologia , Rememoração Mental/fisiologia , Sono de Ondas Lentas/fisiologia , Adolescente , Criança , Desenvolvimento Infantil/fisiologia , Feminino , Humanos , Aprendizagem/fisiologia , Masculino , Inquéritos e Questionários , VocabulárioRESUMO
This study investigates the time course of incorporation of waking life experiences into daydreams. Thirty-one participants kept a diary for 10 days, reporting major daily activities (MDAs), personally significant events (PSEs) and major concerns (MCs). They were then cued for daydream, Rapid Eye Movement (REM) and N2 dream reports in the sleep laboratory. There was a higher incorporation into daydreams of MCs from the previous two days (day-residue effect), but no day-residue effect for MDAs or PSEs, supporting a function for daydreams of processing current concerns. A day-residue effect for PSEs and the delayed incorporation of PSEs from 5 to 7 days before the dream (the dream-lag effect) have previously been found for REM dreams. Delayed incorporation was not found in this study for daydreams. Daydreams might thus differ in function from REM sleep dreams. However, the REM dream-lag effect was not replicated here, possibly due to design differences from previous studies.