Gravitational waves could reveal whether the quark soup that existed in the early Universe is created in neutron-star mergers. RIKEN researchers suggest that gravitational-wave signals from merging neutron stars could reveal the existence of ultra-dense quark-gluon matter. By simulating these mergers a...
Mapping neutron star data to the equation of state using the deep neural network The densest state of matter in the Universe is uniquely realized inside the central cores of the neutron star. While first-principles evaluation of the equ... Y Fujimoto,K Fukushima,K Murase - 《Physical Review ...
Neutron stars are the densest ‘normal’ objects known to astrophysicists. Of course, black holes are even denser, but they are certainly far from normal. In fact, scientists believe that the strongest material in the Universe, referred to as “nuclear pasta,” can be found deep inside the ...
"The high density aspect is often overlooked in many carbon nanotube growth processes, and is an unusual feature of our approach," says John Robertson, a professor in the electronic devices and materials group in the department of engineering at Cambridge. High-density forests are necessary for c...
theCERNlaboratory in Geneva, Switzerland reported the first results of an experiment in which the nuclei ofleadatoms were shot around the 17 mile racetrack called theLarge Hadron Colliderand then smashed into each other to create, for an instant, a speck of matter at a temperature of trillions...
In an earlier paper, we quantified the mean merger rate of dark matter haloes as a function of redshift z, descendant halo mass M0, and progenitor halo mas... O Fakhouri,CP Ma - 《Monthly Notices of the Royal Astronomical Society》 被引量: 62发表: 2009年 Orientation of cosmic web fila...