Wave function, Atomic orbital, Photon, Quantum mechanics, Physics, Schrödinger equation
Visualizing the Impossible
Visualizing the Impossible - Numerically Approximating the Time Dependent Schrödinger Equation for Computer Visualization
Visualizing the Impossible
Visualizing the Impossible - Numerically Approximating the Time Dependent Schrödinger Equation for Computer Visualization
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In Quantum Physics, “Reality” Really Is What We Choose To Observe
The quantum eraser experiment shows that there is no reality independent of measurement at the microphysical level. It is created by the measurement itself.
Efficient matter-wave lensing of ultracold atomic mixtures
Common dynamics for quantum gas mixtures As long as the trapping potentials of the different atomic species fulfill the condition , which can be achieved by employing a magic laser ...
This Simple Experiment Could Challenge Standard Quantum Theory
Measuring the time it takes particles to travel between two points may offer the best-yet test for Bohmian mechanics
Neural Quantum States
Picture by By Tatiana Shepeleva/shutterstock.com One of the most challenging problems in modern theoretical physics is the so-called many-body problem. Typic…
Probability amplitude
The Schrödinger wave equation, describing states of quantum particles, has solutions that describe a system and determine precisely how the state changes with time. Non-entangled states of ...
Why Quantum Mechanics Still Stumps Physicists
Nearly 100 years after quantum mechanics was introduced, scientists still don’t agree on what it means
An extension of FermiNet to discover quantum phase transitions
Architectures based on artificial neural networks (ANNs) have proved to be very helpful in research settings, as they can quickly analyze vast amounts of data and make accurate predictions. ...
What is Quantum Entanglement? Part 1: Waves and particles
If you follow science, or science fiction, to any degree, great or small, you’ve probably heard the term “quantum entanglement” before. You may also have heard it referred to as …
For a Split Second, a (Simulated) Particle Went Backward in Time
Using a quantum computer, physicists successfully reversed time for an artificial atom. You can even try it at home.
How to use the Hartree-Fock method in PennyLane
Hartree-Fock is a standard classical state-preparation step for running quantum chemistry workflows. This post goes through how to make the process painless with PennyLane!
10 mind-boggling things you should know about quantum physics
From the multiverse to black holes, here’s your cheat sheet to the spooky side of the universe.
The many meanings of Schrödinger's cat
Nine notable thinkers, Amanda Gefter; Sheldon Goldstein; Jenann Ismael; Chiara Marletto; Tim Maudlin; Alyssa Ney; Tim Palmer; Carlo Rovelli; Lev Vaidman, interpret the meaning of ...
AI Breakthrough Speeds Up Quantum Chemistry
Caltech’s OrbNet deep learning tool outperforms state-of-the-art solutions.