|CERN Physicists Find a Particle With a Double Dose of Charm|
Added: 07.07.2017 1:09 | 33 views | 0 comments
The discovery could provide new insight into how quarks, the building blocks of protons and neutrons, interact with each other.
|Neutrons detect elusive Higgs amplitude mode in quantum material|
Added: 06.07.2017 13:11 | 15 views | 0 comments
Scientists have used sophisticated neutron scattering techniques to detect an elusive quantum state known as the Higgs amplitude mode in a two-dimensional material.
|Neutron-rich nucleus shapeshifts between a rugby ball and a discus|
Added: 26.06.2017 16:16 | 16 views | 0 comments
There are two coexisting, competing quantum shapes at low energy in 98Kr, never before seen for neutron-rich Kr isotopes, report scientists. The team also showed that these isotopes experience a gentle onset of deformation with added neutrons, in sharp contrast with neighboring isotopes of rubidium, strontium, and zirconium, which change shapes suddenly at neutron number 60. This study marks a decisive step towards an understanding of the limits of this quantum phase transition region.
|Neutrons zero in on elusive magnetic Majorana fermion|
Added: 10.06.2017 20:48 | 21 views | 0 comments
Neutron scattering has revealed in unprecedented detail new insights into the exotic magnetic behavior of a material that could pave the way for quantum calculations far beyond the limits of a computer's binary code. A research team has confirmed magnetic signatures likely related to Majorana fermions--elusive particles that could be the basis for a quantum bit, or qubit, in a two-dimensional graphene-like material, alpha-ruthenium trichloride.
|Physicists use numerical 'tweezers' to study nuclear interactions|
Added: 09.06.2017 19:48 | 29 views | 0 comments
Researchers have developed numerical 'tweezers' that can pin a nucleus in place, enabling them to study how interactions between protons and neutrons produce forces between nuclei.
Copyright © 2008-2017 USweekly - all rights reserved