Publications by authors named "E Haber"
Blood pressure (BP) is routinely invasively monitored by an arterial catheter in the intensive care unit (ICU). However, the available data comparing the accuracy of noninvasive methods to arterial catheters for measuring BP in the ICU are limited by small numbers and diverse methodologies. To determine agreement between invasive arterial blood pressure monitoring (IABP) and noninvasive blood pressure (NIBP) in critically ill patients.
View Article and Find Full Text PDFTwo-dimensional Mott materials have recently been reported in the dichalcogenide family with high potential for Mottronic applications. Nevertheless, their widespread use as a single or few layers is hampered by their limited device integration resulting from their growth on graphene, a metallic substrate. Here, we report on the fabrication of 1T-TaSe monolayers grown by molecular beam epitaxy on semiconducting gallium phosphide substrates.
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- The study investigates the effects of a brief virtual coping intervention on the mental health of Canadian healthcare workers (HCWs) during the COVID-19 pandemic, highlighting the lack of research on psychological support for this group.
- The intervention was well-received, leading to significant improvements in anxiety, depression, perceived stress, insomnia, and fear of COVID-19, with some benefits also noted in work/social impairment.
- Findings suggest that these improvements were largely independent of factors like age, gender, or prior mental health treatment, indicating that the intervention was effective across various HCW profiles.
We present the first experimental demonstration of a Fabry‒Perot resonator that utilizes total internal reflection from a liquid-gas interface. Our hybrid resonator hosts both optical and capillary waves that mutually interact. Except for the almost perfect reflection by the oil-air interface at incident angles smaller than the critical angle, reflections from the liquid-phase boundary permit optically examining thermal fluctuations and capillary waves at the oil surface.
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