It was this power to shift problems from the QCD perspective to a string theory view that
first led some physicists to see a link between the quarks and gluons at RHIC and the equations describing a black hole.
Not exact matches
Laughing —
First of all, i'm not the only one that Knows the Big Bang theory does not hold weight and has many holes in it, many
leading physicists do not believe in it, it's a Theory like you said moron... I don't have to be the one to try and disprove it to you, Do your own research, the folks that work the most with the theory haven't staked their entire faith or belief in it, because they know it's not proven and it can not be proven.
Both William Olaf Stapledon, early twentieth century philosopher and science fiction author, and Professor Sir David Weatherall, distinguished medical scientist, have strong ties to Liverpool; and Birmingham has historically been home to a wide range of humanist thinkers like John Baskerville, nineteenth century avowed atheist and renown printer, Harold Blackham,
first director of the BHA; George Holyoake, nineteenth century writer who coined the term «secularism», sex education pioneer Martin Cole,
leading international humanist and philosopher -
physicist Sir Harry Stopes - Roe; and writer and comedian Natalie Haynes.
«Our research shows for the
first time that classical systems such as artificial spin ice can be designed to demonstrate topological ordered phases, which previously have been found only in quantum conditions,» said Los Alamos National Laboratory
physicist Cristiano Nisoli, leader of the theoretical group that collaborated with an experimental group at the University of Illinois at Urbana - Champaign,
led by Peter Schiffer (now at Yale University).
However, he was an unlikely choice as leader of the team assembled to build the
first nuclear weapons since he was not an experimental
physicist, nor had he
led any kind of project before.
Now, an international collaboration of
physicists led by Dr. Eleftherios Goulielmakis, head of the research group «Attoelectronics» at the Max Planck Institute of Quantum Optics, researchers from Texas A&M University, USA, and the Lomonosov Moscow State University, have been able to track the effect of this delay for the
first time.
A team of scientists
led by research
physicist Dan Lubin at Scripps Institution of Oceanography at the University of California San Diego has created for the
first time an estimate of how much dimmer the Sun should be when the next minimum takes place.
Last year, along with researchers
led by Brookhaven / Columbia University School of Engineering
physicist Simon Billinge, the team established the
first firm link between the disappearance of the density wave within the pseudogap phase and the emergence, as stated by Davis, of «universally free - flowing electrons needed for unrestricted superconductivity» [see: https://www.bnl.gov/newsroom/news.php?a=11637].
«This is the
first time an experiment has directly linked the disappearance of the density waves and their associated nanoscale crystal distortions with the emergence of universally free - flowing electrons needed for unrestricted superconductivity,» said
lead author J.C. Séamus Davis, a senior
physicist and Director of DOE's Center for Emergent Superconductivity at Brookhaven Lab and also a professor at both Cornell University and the St. Andrews University in Scotland.
A team of scientists,
led by University of Illinois
physicist Peter Schiffer, has reported direct visualization of magnetic charge crystallization in an artificial spin ice material, a
first in the study of a relatively new class of frustrated artificial magnetic materials - by - design known as «Artificial Spin Ice.»
This had been predicted as a relic from when hot ionized plasma of the early universe
first cooled sufficiently to form neutral hydrogen and allow space to become transparent to light, and its discovery
led to general acceptance among
physicists that the Big Bang is the best model for the origin and evolution of the universe.
Ronald Drever, the mercurial Scottish
physicist who played a
leading role in developing the world's
first successful gravitational wave detectors — the Laser Interferometer Gravitational - wave Observatory (LIGO)-- died yesterday.
First, a number of sensational discoveries were made by two English groups; the identification of the pion (by Powell) and the so - called V particles or kaons (by Rochester and Butler)
led many nuclear
physicists to turn to the study of cosmic rays.
Researchers at the U.S. Naval Research Laboratory (NRL) Center for Computational Materials Science, working with an international team of
physicists, have revealed that nanocrystals made of cesium
lead halide perovskites (CsPbX3), is the
first discovered material which the ground exciton state is «bright,» making it an attractive candidate for more efficient solid - state lasers and light emitting diodes (LEDs).
«We've pulled all the components together for the
first time,» says Jonathan Home, a
physicist at NIST who
leads the project.
More than four decades later, a UChicago -
led team of
physicists built the world's smallest neutrino detector to observe the elusive interaction for the
first time.
Designed and developed by a team of nuclear
physicists led by senior scientist Howard Wieman at Lawrence Berkeley National Laboratory, now retired, the HFT is the
first silicon detector at a collider that uses a technology found in digital cameras called monolithic active pixel sensor technology.
It was established in honor of the founder of the NCRP, the late Dr. Lauriston S. Taylor, a radiation
physicist and pioneer in the field of radiation safety whose work
led to the
first U.S. standard for X-ray exposure.
This then
led me into doing... My
first book I got to live at CERN, the big physics lab outside of Geneva and I watched 150 extraordinarily smart
physicists discover non-existent elementary particles on my watch.
Svante Arrhenius, a Swedish
physicist,
first suggested in 1896 that increases in atmospheric CO2 would
lead to global temperature rises.