Texas A&M University researchers are co-leading a $20 million project to develop a $1 cancer treatment. What if a single one-dollar dose could cure cancer? A multi-university team of researchers,…
Confirming CO2 origins could be useful for emissions trading. Carbon capture is essential to reduce the impact of human carbon dioxide emissions on our climate. Researchers at the University of…
Computational model allows researchers to simulate cellular-scale interactions across unprecedented distances in the human vasculature. Biomedical engineers at Duke University have significantly enhanced the capabilities of a computational model that…
Particle accelerators hold great potential for semiconductor applications, medical imaging and therapy, and research in materials, energy and medicine. But conventional accelerators require plenty of elbow room — kilometers —…
Adaptive optics (AO) is a technique used for real-time correction of phase aberrations by employing feedback to adjust the optical system. Polarization aberrations represent another significant type of distortion that…
A new platform for quantum information processing. Processing quantum information relies on interacting qubits – the basic building blocks of quantum information – to perform computational tasks. Scientists are searching…
The Lorentz reciprocal theorem can now be applied to fluids with broken symmetries. Scientists at the Max Planck Institute for Dynamics and Self-Organization (MPI-DS) in Göttingen have found a way…
Particle accelerators hold great potential for semiconductor applications, medical imaging and therapy, and research in materials, energy and medicine. But conventional accelerators require plenty of elbow room — kilometers —…
Adaptive optics (AO) is a technique used for real-time correction of phase aberrations by employing feedback to adjust the optical system. Polarization aberrations represent another significant type of distortion that…
The Lorentz reciprocal theorem can now be applied to fluids with broken symmetries. Scientists at the Max Planck Institute for Dynamics and Self-Organization (MPI-DS) in Göttingen have found a way…
Texas A&M University researchers are co-leading a $20 million project to develop a $1 cancer treatment. What if a single one-dollar dose could cure cancer? A multi-university team of researchers,…
Growth is a fundamental biological process and a prerequisite for living organisms to develop and reproduce. The processes of cell growth (i.e. the production of new biomass) and of cell…
Unlike humans, zebrafish can completely regenerate their hearts after injury. They owe this ability to the interaction between their nervous and immune systems, as researchers led by Suphansa Sawamiphak from…
Physicists at Martin Luther University Halle-Wittenberg (MLU) and Central South University in China have demonstrated that, combining specific materials, heat in technical devices can be used in computing. Their discovery…
Microprocessor-scale transistors detect and respond to biological states and the environment. Your phone may have more than 15 billion tiny transistors packed into its microprocessor chips. The transistors are made…
Glass – whether used to insulate our homes or as the screens in our computers and smartphones – is a fundamental material. Yet, despite its long usage throughout human history,…
A new platform for quantum information processing. Processing quantum information relies on interacting qubits – the basic building blocks of quantum information – to perform computational tasks. Scientists are searching…
Open-source supercomputer algorithm predicts patterning and dynamics of living materials and enables studying their behavior in space and time. Biological materials are made of individual components, including tiny motors that…
Researchers develop a deep learning model that can detect a previously unknown quasicrystalline phase present in multiphase crystalline samples. Crystalline materials are made up of atoms, ions, or molecules arranged…
