#SpaceNEWS
➖@Phytimes➖
Scientists find black holes could reach 'stupendously large' sizes
A recent study suggests the possible existence of 'stupendously large black holes' or SLABS, even larger than the supermassive black holes already observed in the centers of galaxies.
➖@Phytimes➖
➖@Phytimes➖
Scientists find black holes could reach 'stupendously large' sizes
A recent study suggests the possible existence of 'stupendously large black holes' or SLABS, even larger than the supermassive black holes already observed in the centers of galaxies.
➖@Phytimes➖
phys.org
Scientists find black holes could reach 'stupendously large' sizes
A recent study suggests the possible existence of 'stupendously large black holes' or SLABS, even larger than the supermassive black holes already observed in the centers of galaxies.
Which of the following is wrong about Blackholes?
Anonymous Quiz
21%
Blackholes are spherical and spin
38%
Blackholes distort space time so they can show the future
40%
The earth can survive a situation where a Blackhole approaches the solar system
#SpaceNEWS
➖@Phytimes➖
What did the solar system look like before all the planets migrated?
Early planetary migration in the solar system has been long established, and there are myriad theories that have been put forward to explain where the planets were coming from. Theories such as the Grand Tack Hypothesis an the Nice Model show how important that migration is to the current state of our solar system. Now, a team from Lawrence Livermore National Laboratory (LLNL) has come up with a novel way of trying to understand planetary migration patterns: by looking at meteorite compositions.
➖@Phytimes➖
➖@Phytimes➖
What did the solar system look like before all the planets migrated?
Early planetary migration in the solar system has been long established, and there are myriad theories that have been put forward to explain where the planets were coming from. Theories such as the Grand Tack Hypothesis an the Nice Model show how important that migration is to the current state of our solar system. Now, a team from Lawrence Livermore National Laboratory (LLNL) has come up with a novel way of trying to understand planetary migration patterns: by looking at meteorite compositions.
➖@Phytimes➖
phys.org
What did the solar system look like before all the planets migrated?
Early planetary migration in the solar system has been long established, and there are myriad theories that have been put forward to explain where the planets were coming from. Theories such as the Grand ...
#SpaceNEWS
➖@Phytimes➖
NASA's MAVEN continues to advance Mars science and telecommunications relay efforts
With a suite of new national and international spacecraft primed to explore the Red Planet after their arrival next month, NASA's MAVEN mission is ready to provide support and continue its study of the Martian atmosphere.
➖@Phytimes➖
➖@Phytimes➖
NASA's MAVEN continues to advance Mars science and telecommunications relay efforts
With a suite of new national and international spacecraft primed to explore the Red Planet after their arrival next month, NASA's MAVEN mission is ready to provide support and continue its study of the Martian atmosphere.
➖@Phytimes➖
phys.org
NASA's MAVEN continues to advance Mars science and telecommunications relay efforts
With a suite of new national and international spacecraft primed to explore the Red Planet after their arrival next month, NASA's MAVEN mission is ready to provide support and continue its study of the ...
#PhysicsNEWS
➖@Phytimes➖
First images of muon beams
A new technique has taken the first images of muon particle beams. Nagoya University scientists designed the imaging technique with colleagues in Osaka University and KEK, Japan and describe it in the journal Scientific Reports. They plan to use it to assess the quality of these beams, which are being used more and more in advanced imaging applications.
➖@Phytimes➖
➖@Phytimes➖
First images of muon beams
A new technique has taken the first images of muon particle beams. Nagoya University scientists designed the imaging technique with colleagues in Osaka University and KEK, Japan and describe it in the journal Scientific Reports. They plan to use it to assess the quality of these beams, which are being used more and more in advanced imaging applications.
➖@Phytimes➖
phys.org
First images of muon beams
A new technique has taken the first images of muon particle beams. Nagoya University scientists designed the imaging technique with colleagues in Osaka University and KEK, Japan and describe it in the ...
#PhysicsNEWS
➖@Phytimes➖
Long live superconductivity! Short flashes of light with sustaining impact
Superconductivity—the ability of a material to transmit an electric current without loss—is a quantum effect that, despite years of research, is still limited to very low temperatures. Now a team of scientists at the MPSD has succeeded in creating a metastable state with vanishing electrical resistance in a molecular solid by exposing it to finely tuned pulses of intense laser light. This effect had already been demonstrated in 2016 for only a very short time, but in a new study the authors of the paper have shown a far longer lifetime, nearly 10.000 times longer than before. The long lifetimes for light-induced superconductivity hold promise for applications in integrated electronics. The research by Budden et al. has been published in Nature Physics.
➖@Phytimes➖
➖@Phytimes➖
Long live superconductivity! Short flashes of light with sustaining impact
Superconductivity—the ability of a material to transmit an electric current without loss—is a quantum effect that, despite years of research, is still limited to very low temperatures. Now a team of scientists at the MPSD has succeeded in creating a metastable state with vanishing electrical resistance in a molecular solid by exposing it to finely tuned pulses of intense laser light. This effect had already been demonstrated in 2016 for only a very short time, but in a new study the authors of the paper have shown a far longer lifetime, nearly 10.000 times longer than before. The long lifetimes for light-induced superconductivity hold promise for applications in integrated electronics. The research by Budden et al. has been published in Nature Physics.
➖@Phytimes➖
phys.org
Long live superconductivity! Short flashes of light with sustaining impact
Superconductivity—the ability of a material to transmit an electric current without loss—is a quantum effect that, despite years of research, is still limited to very low temperatures. Now a team ...
#SpaceNEWS
➖@Phytimes➖
Where should future astronauts land on Mars? Follow the water
So you want to build a Mars base. Where to start? Like any human settlement, it would be best located near accessible water. Not only will water be crucial for life-support supplies, it will be used for everything from agriculture to producing the rocket propellant astronauts will need to return to Earth.
➖@Phytimes➖
➖@Phytimes➖
Where should future astronauts land on Mars? Follow the water
So you want to build a Mars base. Where to start? Like any human settlement, it would be best located near accessible water. Not only will water be crucial for life-support supplies, it will be used for everything from agriculture to producing the rocket propellant astronauts will need to return to Earth.
➖@Phytimes➖
phys.org
Where should future astronauts land on Mars? Follow the water
So you want to build a Mars base. Where to start? Like any human settlement, it would be best located near accessible water. Not only will water be crucial for life-support supplies, it will be used for ...
#PhysicsNEWS
➖@Phytimes➖
Physicists finesse the storing of light to create rainbows of color
In nature, as in everyday life, we are surrounded by resonance—the phenomenon that describes how each object has a frequency that it prefers to vibrate at. The note of a guitar string and the sound of Big Ben chiming are examples of resonance.
➖@Phytimes➖
➖@Phytimes➖
Physicists finesse the storing of light to create rainbows of color
In nature, as in everyday life, we are surrounded by resonance—the phenomenon that describes how each object has a frequency that it prefers to vibrate at. The note of a guitar string and the sound of Big Ben chiming are examples of resonance.
➖@Phytimes➖
phys.org
Physicists finesse the storing of light to create rainbows of color
In nature, as in everyday life, we are surrounded by resonance—the phenomenon that describes how each object has a frequency that it prefers to vibrate at. The note of a guitar string and the sound ...
#PhysicsNEWS
#DarkMatter
➖@Phytimes➖
Scientists develop new, faster method for seeking out dark matter
For nearly a century, scientists have worked to unravel the mystery of dark matter—an elusive substance that spreads through the universe and likely makes up much of its mass, but has so far proven impossible to detect in experiments. Now, a team of researchers have used an innovative technique called "quantum squeezing" to dramatically speed up the search for one candidate for dark matter in the lab.
➖@Phytimes➖
@phytimesloginbot
#DarkMatter
➖@Phytimes➖
Scientists develop new, faster method for seeking out dark matter
For nearly a century, scientists have worked to unravel the mystery of dark matter—an elusive substance that spreads through the universe and likely makes up much of its mass, but has so far proven impossible to detect in experiments. Now, a team of researchers have used an innovative technique called "quantum squeezing" to dramatically speed up the search for one candidate for dark matter in the lab.
➖@Phytimes➖
@phytimesloginbot
phys.org
Scientists develop new, faster method for seeking out dark matter
For nearly a century, scientists have worked to unravel the mystery of dark matter—an elusive substance that spreads through the universe and likely makes up much of its mass, but has so far proven ...
#PhysicsNEWS
➖@Phytimes➖
Applying quantum computing to a particle process
A team of researchers at Lawrence Berkeley National Laboratory (Berkeley Lab) used a quantum computer to successfully simulate an aspect of particle collisions that is typically neglected in high-energy physics experiments, such as those that occur at CERN's Large Hadron Collider.
➖@Phytimes➖
➖@Phytimes➖
Applying quantum computing to a particle process
A team of researchers at Lawrence Berkeley National Laboratory (Berkeley Lab) used a quantum computer to successfully simulate an aspect of particle collisions that is typically neglected in high-energy physics experiments, such as those that occur at CERN's Large Hadron Collider.
➖@Phytimes➖
phys.org
Applying quantum computing to a particle process
A team of researchers at Lawrence Berkeley National Laboratory (Berkeley Lab) used a quantum computer to successfully simulate an aspect of particle collisions that is typically neglected in high-energy ...
The Physics Times
Photo
Physicists grab individual atoms in groundbreaking experiment
A myriad of equipment including lasers, mirrors, a vacuum chamber, and microscopes assembled in Otago’s Department of Physics, plus a lot of time, energy, and expertise, have provided the ingredients to investigate this quantum process, which until now was only understood through statistical averaging from experiments involving large numbers of atoms
https://phytimes.xyz/article/2021/02/16/physicists-grab-individual-atoms-in-groundbreaking-experiment/
A myriad of equipment including lasers, mirrors, a vacuum chamber, and microscopes assembled in Otago’s Department of Physics, plus a lot of time, energy, and expertise, have provided the ingredients to investigate this quantum process, which until now was only understood through statistical averaging from experiments involving large numbers of atoms
https://phytimes.xyz/article/2021/02/16/physicists-grab-individual-atoms-in-groundbreaking-experiment/
The Physics Times
Physicists grab individual atoms in groundbreaking experiment
In a first for quantum physics, University of Otago researchers have "held" individual atoms in place and observed previously unseen complex atomic interactions.
#SpaceNEWS
#Cosmology
➖@Phytimes➖
Supercomputer turns back cosmic clock
Astronomers have tested a method for reconstructing the state of the early universe by applying it to 4000 simulated universes using the ATERUI II supercomputer at the National Astronomical Observatory of Japan (NAOJ). They found that together with new observations, the method can set better constraints on inflation, one of the most enigmatic events in the history of the universe. The method can shorten the observation time required to distinguish between various inflation theories.
➖@Phytimes➖
#Cosmology
➖@Phytimes➖
Supercomputer turns back cosmic clock
Astronomers have tested a method for reconstructing the state of the early universe by applying it to 4000 simulated universes using the ATERUI II supercomputer at the National Astronomical Observatory of Japan (NAOJ). They found that together with new observations, the method can set better constraints on inflation, one of the most enigmatic events in the history of the universe. The method can shorten the observation time required to distinguish between various inflation theories.
➖@Phytimes➖
phys.org
Supercomputer turns back cosmic clock
Astronomers have tested a method for reconstructing the state of the early universe by applying it to 4000 simulated universes using the ATERUI II supercomputer at the National Astronomical Observatory ...
#SpaceNEWS
#Mars
➖@Phytimes➖
Planetary scientists discover evidence for a reduced atmosphere on ancient Mars
Both Earth and Mars currently have oxidising atmospheres, which is why iron-rich materials in daily life develop rust (a common name for iron oxide) during the oxidation reaction of iron and oxygen. The Earth has had an oxidising atmosphere for approximately 2.5 billion years, but before that, the atmosphere of this planet was reducing—there was no rust.
➖@Phytimes➖
#Mars
➖@Phytimes➖
Planetary scientists discover evidence for a reduced atmosphere on ancient Mars
Both Earth and Mars currently have oxidising atmospheres, which is why iron-rich materials in daily life develop rust (a common name for iron oxide) during the oxidation reaction of iron and oxygen. The Earth has had an oxidising atmosphere for approximately 2.5 billion years, but before that, the atmosphere of this planet was reducing—there was no rust.
➖@Phytimes➖
phys.org
Planetary scientists discover evidence for a reduced atmosphere on ancient Mars
Both Earth and Mars currently have oxidising atmospheres, which is why iron-rich materials in daily life develop rust (a common name for iron oxide) during the oxidation reaction of iron and oxygen. The ...
The Physics Times
Photo
Nasa Perseverance rover to land on Mars in search of life
A rover and a tiny helicopter are preparing to land on Mars, aiming to offer an opportunity to answer an enduring question: ...
https://phytimes.xyz/article/2021/02/18/nasa-perseverance-rover-to-land-on-mars-in-search-of-life/
A rover and a tiny helicopter are preparing to land on Mars, aiming to offer an opportunity to answer an enduring question: ...
https://phytimes.xyz/article/2021/02/18/nasa-perseverance-rover-to-land-on-mars-in-search-of-life/
#PhysicsNEWS
#QuantumPhysics
➖@Phytimes➖
A speed limit also applies in the quantum world
Even in the world of the smallest particles with their own special rules, things cannot proceed infinitely fast. Physicists at the University of Bonn have now shown what the speed limit is for complex quantum operations. The study also involved scientists from MIT, the universities of Hamburg, Cologne and Padua, and the Jülich Research Center. The results are important for the realization of quantum computers, among other things. They are published in the prestigious journal Physical Review X, and covered by the Physics Magazine of the American Physical Society.
➖@Phytimes➖
@phytimesloginbot
#QuantumPhysics
➖@Phytimes➖
A speed limit also applies in the quantum world
Even in the world of the smallest particles with their own special rules, things cannot proceed infinitely fast. Physicists at the University of Bonn have now shown what the speed limit is for complex quantum operations. The study also involved scientists from MIT, the universities of Hamburg, Cologne and Padua, and the Jülich Research Center. The results are important for the realization of quantum computers, among other things. They are published in the prestigious journal Physical Review X, and covered by the Physics Magazine of the American Physical Society.
➖@Phytimes➖
@phytimesloginbot
phys.org
A speed limit also applies in the quantum world
Even in the world of the smallest particles with their own special rules, things cannot proceed infinitely fast. Physicists at the University of Bonn have now shown what the speed limit is for complex ...
#SpaceNEWS
#NASA
➖@Phytimes➖
NASA releases first video of Perseverance rover landing on Mars
The US space agency NASA on Monday released the first video of the landing of the Perseverance rover on Mars.
➖@Phytimes➖
#NASA
➖@Phytimes➖
NASA releases first video of Perseverance rover landing on Mars
The US space agency NASA on Monday released the first video of the landing of the Perseverance rover on Mars.
➖@Phytimes➖
phys.org
NASA releases first audio from Mars, video of landing (Update)
The US space agency NASA on Monday released the first audio from Mars, a faint crackling recording of a gust of wind captured by the Perseverance rover.
#PhysicsNEWS
➖@Phytimes➖
Radioactivity in meteorites sheds light on origin of heaviest elements in our solar system
A team of international researchers went back to the formation of the solar system 4.6 billion years ago to gain new insights into the cosmic origin of the heaviest elements on the period-ic table.
➖@Phytimes➖
➖@Phytimes➖
Radioactivity in meteorites sheds light on origin of heaviest elements in our solar system
A team of international researchers went back to the formation of the solar system 4.6 billion years ago to gain new insights into the cosmic origin of the heaviest elements on the period-ic table.
➖@Phytimes➖
phys.org
Radioactivity in meteorites sheds light on origin of heaviest elements in our solar system
A team of international researchers went back to the formation of the solar system 4.6 billion years ago to gain new insights into the cosmic origin of the heaviest elements on the period-ic table.