Mysterious Majorana quasiparticle is now closer to being controlled for quantum computing
As mysterious as the Italian scientist for which it is named, the Majorana particle is one of the most compelling quests in physics.
As mysterious as the Italian scientist for which it is named, the Majorana particle is one of the most compelling quests in physics.
Quantum Physics
Jun 13, 2019
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1787
(Phys.org) —There has been a great deal of research lately on flexible electronics, but so far these devices (which are mostly made of carbon) still use metal electrodes and oxide insulators, and these rigid materials limit ...
For the first time, physicists have observed novel quantum effects in a topological insulator at room temperature. This breakthrough, published as the cover article of the October issue of Nature Materials, came when Princeton ...
General Physics
Oct 26, 2022
1
2102
In 1928, physicist Paul Dirac made the stunning prediction that every fundamental particle in the universe has an antiparticle – its identical twin but with opposite charge. When particle and antiparticle met they would ...
General Physics
Jul 20, 2017
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3293
For years, physicists have assumed that Cooper pairs, the electron duos that enable superconductors to conduct electricity without resistance, were two-trick ponies. The pairs either glide freely, creating a superconducting ...
Condensed Matter
Nov 15, 2019
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4146
The search is on to discover new states of matter, and possibly new ways of encoding, manipulating, and transporting information. One goal is to harness materials' quantum properties for communications that go beyond what's ...
Quantum Physics
Sep 10, 2020
0
909
Saving money was never on Dennis Kaech's mind when he built his Olympia, Wash., home. But saving energy was.
Energy & Green Tech
Jan 29, 2013
13
2
Most modern electronic devices rely on tiny, finely-tuned electrical currents to process and store information. These currents dictate how fast our computers run, how regularly our pacemakers tick and how securely our money ...
General Physics
Feb 3, 2020
1
2683
(PhysOrg.com) -- While the most common device for converting light into electricity may be photovoltaic (PV) solar cells, a variety of other devices can perform the same light-to-electricity conversion, such as solar-thermal ...
Topological materials move electrons along their surface and edges without any loss, making them promising materials for dissipationless, high-efficiency electronics. Researchers are especially interested in using these materials ...
General Physics
Jan 5, 2022
0
907