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Archive for the ‘particle physics’ category: Page 260

Jul 18, 2022

Microsoft’s Project AirSim is pushing drone simulation software to new heights

Posted by in categories: business, drones, particle physics, robotics/AI

How do you teach an autonomous drone to fly itself? Practice, practice, practice. Now Microsoft is offering a way to put a drone’s control software through its paces millions of times before the first takeoff.

The cloud-based simulation platform, Project AirSim, is being made available in limited preview starting today, in conjunction with this week’s Farnborough International Airshow in Britain.

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Jul 18, 2022

MIT Physicists Harness Quantum “Time Reversal” for Detecting Gravitational Waves and Dark Matter

Posted by in categories: cosmology, particle physics, quantum physics

A new technique to measure vibrating atoms could improve the precision of atomic clocks and of quantum sensors for detecting dark matter or gravitational waves.

Gravitational waves are distortions or ripples in the fabric of space and time. They were first detected in 2015 by the Advanced LIGO detectors and are produced by catastrophic events such as colliding black holes, supernovae, or merging neutron stars.

Jul 18, 2022

Chemists Just Rearranged Atomic Bonds in a Single Molecule For The First Time

Posted by in categories: chemistry, engineering, particle physics, transportation

So precise.


If chemists built cars, they’d fill a factory with car parts, set it on fire, and sift from the ashes pieces that now looked vaguely car-like.

When you’re dealing with car-parts the size of atoms, this is a perfectly reasonable process. Yet chemists yearn for ways to reduce the waste and make reactions far more precise.

Continue reading “Chemists Just Rearranged Atomic Bonds in a Single Molecule For The First Time” »

Jul 17, 2022

Deep Space ‘Ghost Particle’ Reveals Clue in Centuries-Old Cosmic Mystery

Posted by in categories: cosmology, particle physics

Scientists tracked a neutrino back to a violent black hole — and it could help explain where elusive cosmic rays originate.

Jul 17, 2022

Scientists revealed for the first time the origin of neutrinos

Posted by in categories: cosmology, particle physics

An international research team led by the University of Würzburg and the University of Geneva (UNIGE) is shedding light on one aspect of this mystery: neutrinos are thought to be born in blazars, galactic nuclei fed by supermassive black holes.

Sara Buson has always thought of it as a significant task. In 2017, the researcher and his associates introduced a blazar (TXS 0506+056) as a potential neutrino source for the first time. That study sparked a scientific debate about whether there truly is a connection between blazars and high-energy neutrinos.

After taking this initial, positive step, Prof. Buson’s team received funding from the European Research Council to launch an ambitious multi-messenger research project in June 2021. Analyzing numerous signals (or “messengers,” for example, neutrinos) from the Universe is required. The primary objective is to shed light on the origin of astrophysical neutrinos, potentially confirming blazars as the first highly certain source of high-energy extragalactic neutrinos.

Jul 17, 2022

Tetraquarks and pentaquarks: “Unnatural” forms of exotic matter have been found

Posted by in category: particle physics

Scientists have found three new examples of a very exotic form of matter made of quarks. They can yield insights into the early Universe.


View insights.

Jul 16, 2022

Soaring inflation has traders betting on the first 100-basis-point rate hike in decades

Posted by in category: particle physics

Should the Fed make a 1-percentage-point hike at the July meeting, it would be the largest move since Paul Volcker was Fed chairman in the 1980s.


Lasers normally use mirrors to create laser light, but a new kind uses clumps of moving particles. The result is a laser that is more programmable and could generate extra-sharp visual displays.

Jul 16, 2022

Chemists change the bonds between atoms in a single molecule for the first time

Posted by in categories: chemistry, particle physics

A team of researchers from IBM Research Europe, Universidade de Santiago de Compostela and the University of Regensburg has changed the bonds between the atoms in a single molecule for the first time. In their paper published in the journal Science, the group describes their method and possible uses for it. Igor Alabugin and Chaowei Hu, have published a Perspective piece in the same journal issue outlining the work done by the team.

The current method for creating or molecular devices, as Alagugin and Chaowei note, is generally quite challenging—they liken it to dumping a box of Legos in a washing machine and hoping that some useful connections are made. In this new effort, the research team has made such work considerably easier by using a scanning tunneling microscope (STM) to break the bonds in a molecule and then to customize the molecule by creating new bonds—a chemistry first.

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Jul 16, 2022

Physicists harness quantum ‘time reversal’ to measure vibrating atoms

Posted by in categories: cosmology, particle physics, quantum physics

The quantum vibrations in atoms hold a miniature world of information. If scientists can accurately measure these atomic oscillations, and how they evolve over time, they can hone the precision of atomic clocks as well as quantum sensors, which are systems of atoms whose fluctuations can indicate the presence of dark matter, a passing gravitational wave, or even new, unexpected phenomena.

A major hurdle in the path toward better quantum measurements is noise from the , which can easily overwhelm subtle atomic vibrations, making any changes to those vibrations devilishly hard to detect.

Now, MIT physicists have shown they can significantly amplify quantum changes in atomic vibrations, by putting the particles through two key processes: and time reversal.

Jul 15, 2022

Researchers reveal an unexpected feature of atomic nuclei when a ‘magic’ number of neutrons is reached

Posted by in category: particle physics

A curious thing happened when MIT researchers Adam Vernon and Ronald Garcia Ruiz, along an international team of scientists, recently performed an experiment in which a sensitive laser spectroscopy technique was used to measure how the nuclear electromagnetic properties of indium isotopes evolve when an extreme number of neutrons are added to the nucleus. These nuclei do not exist in nature, and once created, their lifetimes can be as short as a fraction of a second, so the team artificially created the nuclei using a particle accelerator at the CERN research facility in Switzerland. By using a combination of multiple lasers and an ion trap, the team isolated the isotopes of interest and performed precision measurements of atoms containing these exotic nuclei. In turn, it allowed the extraction of their nuclear properties.

Vernon, a postdoc in the Laboratory for Nuclear Science (LNS); Garcia Ruiz, an assistant professor of physics and LNS affiliate; and their colleagues achieved a surprising result. When measuring a with a certain “magic” number of neutrons—82—the of the nucleus exhibited a drastic change, and the properties of these very complex nuclei appear to be governed by just one of the protons of the nucleus.

“The new observation at 82 total neutrons changes this picture of the nucleus. We had to come up with new nuclear theories to explain the result,” says Vernon.