Sentences with word «fermionic»

Then, in late 2003, National Institutes of Standards and Technology physicist Deborah Jin's team used lasers and magnetic fields to steady and chill potassium atoms until they formed the first ever so - called fermionic condensate.

In collaboration with the Google Inc. research group and the University of California Santa Barbara (UCSB), the Quantum Technologies for Information Science (QUTIS) research group of the UPV / EHU - University of the Basque Country has published a paper in the journal Nature Communications and entitled «Digital quantum simulation of fermionic models with a superconducting circuit.»

We established superfluidity in a two - state mixture of ultracold fermionic atoms with imbalanced state populations.

«Advanced quantum algorithm: Digital quantum simulation of fermionic models: More than 300 quantum logic gates on 4 superconducting quantum bits.»

If supersymmetry is right, every known fermion has a yet - to - be-observed bosonic «superpartner,» and every known boson, likewise, has an as - yet - unseen fermionic superpartner.

The collaboration between the UPV / EHU and Google / UCSB has managed in a pioneering way to produce a digital fermionic simulator in excess of 300 quantum logic gates on 4 superconducting quantum bits.

Two reservoirs of strongly interacting fermionic 6Li atoms are used to simulate a mesoscopic electronic device.

In this way, the condensate state of matter is analogous to what happens in superconductors, where fermionic electrons couple up and overcome their like - charge repulsions to flow freely, Jin says.

Other mysterious fermionic systems include neutron stars and the quark - gluon plasma that drove the expansion of the early universe.

The chemistry of systems at room temperature is determined by the electronic properties, which is essentially fermionic, since room temperature thermal excitations have typical energies much higher than the hyperfine values.

Recent work cooling atoms to near absolute zero have produced new forms of matter called Bose - Einstein and fermionic condensates.

In his own research, Eugene Demler deals with ultracold atoms, studying how mixtures of bosonic and fermionic atoms behave.

Bose - Einstein condensates and fermionic condensates; strange matter; liquid crystals; superfluids and supersolids; and the paramagnetic and ferromagnetic phases of magnetic materials.

The insights they have gathered will most likely keep Imamoglu and his collaborators busy for some time to come, as the interactions between bosonic (such as excitons) and fermionic (electrons) particles are the topic of a large research project for which Imamoglu won an Advanced Grant of the European Research Council (ERC) last year, and is also supported by the National Centre of Competence in Research Quantum Science and Technology (NCCR QSIT).

She then jostled the atoms, using a magnetic field and delicate laser bursts, until they matched up and formed unions, the hallmark of a fermionic condensate.

Deborah Jin, a physicist at the National Institute of Standards and Technology, announced in January the creation of an exotic form of matter known as a fermionic condensate, which could eventually spawn a revolution in energy use and magnetically levitated trains.

In contrast, the relatively high - temperature superconductors are thought to work when electrons are paired at the average distance between them — and this is what was seen between the atoms in this fermionic condensate.

The matter, called a fermionic condensate, consists of atoms that are ordinarily forbidden to exist in the same quantum state but have been tricked into it by linking into pairs.

Researchers hoping to create a fermionic condensate doubted they could even reach the super-cold temperatures necessary for the fermions to pair up.

But big things may await her as the creator of the fermionic condensate, as Scientific American suggested in 2004: «The makers of the earlier Bose — Einstein condensate have already claimed a Nobel Prize for their accomplishment, and Jin seems a sure bet to eventually do the same.»

She and fellow U.C.B. physicist Jun Ye recently succeeded in making a gas of ultracold polar molecules of potassium and rubidium near the temperature of the quantum regime where Jin previously observed a fermionic condensate.

University of Colorado physicists create a «fermionic condensate,» an important step toward room - temperature superconductivity.

The father of the modern laser said this:» If you pump any (fermionic) system hard enough... it will LASE».