Physicists at Harvard and MIT universities have managed to create the world’s largest quantum simulator. Using a new laser technique to manipulate atoms, a system has been created that brings super speed quantum computing a step closer to reality.
Griffith University researchers have overcome a significant difficulty in implementing a strange quantum effect for real applications.
Researchers exhibited a method to observe physical phenomena hypothesized to be present in higher dimensional systems, in equivalent real-world experiments.
In a survey for small, faint objects in the Orion Nebula, astronomers discovered the largest known population of brown dwarfs scattered among newborn stars.
Two-dimensional experimental set-up developed, enabling analysis of materials' physical characteristics.
Quantum Mechanics and General Relativity
By Meet A. Moradiya
Exploring Quantum Thermodynamics
By Liam Critchley
Overcoming the Challenges of Scientific Instrumentation for Quantum Computing Research
By Mychealla Rice
Researchers Employ Split Images of Quasars to Create New Estimate of the Hubble Constant
Novel Computational Method Used to Systematically Investigate Magnetic Quantum Effects in Solids
First Experimental Proof of Strange XY-Type Magnetic-Behavior Transition in Magnetic Materials
Novel Protocols Could Enable Quantum Sensors to Provide Magnetic Resonance with Unparalleled Sensitivity
Using Resonant Inelastic X-Ray Scattering to Perform New Variant of Basic Double-Slit Experiment
Close Observations of Rare Hypernova Reveals Missing Connection Between Hypernovae and Gamma-Ray Bursts
The IRTracer-100 FTIR Spectrophotometer from Shimadzu has an improved interferometer and detector design. It offers superior sensitivity with a 60,000:1 S/N ratio
Electro-optic modulators (EOMs) are an easy to use and efficient tool to externally modify the phase, frequency, polarization or amplitude of a free-space laser. In contrast to acousto-optic modulators the spatial mode of the laser beam remains unaltered.
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