Quantum computers hold the promise of solving certain problems that lie beyond the reach of conventional computers. Establishing this capability, especially for impactful and meaningful problems, remains a central challenge. Here we show that superconducting quantum annealing processors can rapidly generate samples in close agreement with solutions of the Schrödinger equation.
View Article and Find Full Text PDFHighly effective direct-acting antiviral (DAA) therapies for hepatitis C (HCV) have been available in Australian prisons since 2016. To address treatment interruption following release from prisons, the Queensland Injector's Health Network (QuIHN) launched a Prison Transition Service (PTS) in south-east Queensland, Australia. Presently, the factors associated with continuity of post-release HCV care are poorly understood.
View Article and Find Full Text PDFIn modern (5G) and future Multi-User (MU) wireless communication systems Beyond 5G (B5G) using Multiple-Input Multiple-Output (MIMO) technology, base stations with a large number of antennas communicate with many mobile stations. This technology is becoming especially relevant in modern multi-user wireless sensor networks in various application scenarios. The problem of organizing an MU mode on the downlink has arisen, which can be solved by precoding at the Base Station (BS) without using additional channel frequency-time resources.
View Article and Find Full Text PDFAdenosine, a pervasive signaling molecule mediated by its interaction with G-protein-coupled receptor subtypes, especially the A adenosine receptor (AAR), plays a crucial role in cancer treatment. Recently, AAR targeting adenosine analogs have been proposed as a potential therapeutic target for cancer treatment. However, the molecules targeting AAR and their mode of action in inhibiting glioblastoma cell progression remain unknown.
View Article and Find Full Text PDFAn intense surge in the equatorial electron temperature (T) at sunrise, known as the morning T overshoot, has been one of the defining ionospheric features since its discovery early in the Space Age. Despite decades of study, the behavior of the morning overshoot during geomagnetic storms remains poorly understood. We report a two-stage response of the morning T overshoot to geomagnetic activity, uncovered by a neural network model.
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