#PhysicsNEWS
#QuantumComputing
➖@Phytimes➖
Bringing a power tool from math into quantum computing
The Fourier transform is an important mathematical tool that decomposes a function or dataset into a its constituent frequencies, much like one could decompose a musical chord into a combination of its notes. It is used across all fields of engineering in some form or another and, accordingly, algorithms to compute it efficiently have been developed—that is, at least for conventional computers. But what about quantum computers?
➖@Phytimes➖
#QuantumComputing
➖@Phytimes➖
Bringing a power tool from math into quantum computing
The Fourier transform is an important mathematical tool that decomposes a function or dataset into a its constituent frequencies, much like one could decompose a musical chord into a combination of its notes. It is used across all fields of engineering in some form or another and, accordingly, algorithms to compute it efficiently have been developed—that is, at least for conventional computers. But what about quantum computers?
➖@Phytimes➖
phys.org
Bringing a power tool from math into quantum computing
The Fourier transform is an important mathematical tool that decomposes a function or dataset into a its constituent frequencies, much like one could decompose a musical chord into a combination of its ...
The Physics Times
Did you know that you could sign up on The Physics Times with your Telegram account?
To sign up on The Physics Times with your Telegram account, follow the following steps
https://telegra.ph/How-To-Sign-Up-on-The-Physics-Times-with-your-Telegram-Account-10-17
https://telegra.ph/How-To-Sign-Up-on-The-Physics-Times-with-your-Telegram-Account-10-17
Telegraph
How To Sign Up on The Physics Times with your Telegram Account
The First Question really is why you'd need an account With your account, you will be able to access all the contents(including some that are exclusive for subscribers) of The Physics Times. Visit this article, for instance, which is only available for subscribed…
#PhysicsNEWS
#Superconductivity
➖@Phytimes➖
Layer-cake 2-D superconductivity: Developing clean 2-D superconductivity in a bulk van der Waals superlattice
Materials science has had a profound historical impact on humanity since the advent of the Iron and Bronze ages. Presently, materials scientists are intrigued by a class of materials known as quantum materials, whose electronic or magnetic behavior cannot be explained by classical physics. Discoveries in the field of quantum materials are followed by a surge of research to uncover new physics or quantum information in science. In a new report now published on Science, A. Devarakonda and a team of scientists in physics at the Massachusetts Institute of Technology, Harvard University and the Riken Center for Emergent Matter Science in the U.S. and Japan reported the synthesis of a highly interesting novel quantum
➖@Phytimes➖
#Superconductivity
➖@Phytimes➖
Layer-cake 2-D superconductivity: Developing clean 2-D superconductivity in a bulk van der Waals superlattice
Materials science has had a profound historical impact on humanity since the advent of the Iron and Bronze ages. Presently, materials scientists are intrigued by a class of materials known as quantum materials, whose electronic or magnetic behavior cannot be explained by classical physics. Discoveries in the field of quantum materials are followed by a surge of research to uncover new physics or quantum information in science. In a new report now published on Science, A. Devarakonda and a team of scientists in physics at the Massachusetts Institute of Technology, Harvard University and the Riken Center for Emergent Matter Science in the U.S. and Japan reported the synthesis of a highly interesting novel quantum
➖@Phytimes➖
phys.org
Layer-cake 2-D superconductivity: Developing clean 2-D superconductivity in a bulk van der Waals superlattice
Materials science has had a profound historical impact on humanity since the advent of the Iron and Bronze ages. Presently, materials scientists are intrigued by a class of materials known as quantum ...
#SpaceNEW
#Einstein
➖@Phytimes➖
Einstein's theory of relativity, critical for GPS, seen in distant stars
What do Albert Einstein, the Global Positioning System (GPS), and a pair of stars 200,000 trillion miles from Earth have in common?
➖@Phytimes➖
#Einstein
➖@Phytimes➖
Einstein's theory of relativity, critical for GPS, seen in distant stars
What do Albert Einstein, the Global Positioning System (GPS), and a pair of stars 200,000 trillion miles from Earth have in common?
➖@Phytimes➖
phys.org
Einstein's theory of relativity, critical for GPS, seen in distant stars
What do Albert Einstein, the Global Positioning System (GPS), and a pair of stars 200,000 trillion miles from Earth have in common?
#PhysicsNEWS
#Astrophysics
➖@Phytimes➖
Exploring the source of stars and planets in a laboratory
A new method for verifying a widely held but unproven theoretical explanation of the formation of stars and planets has been proposed by researchers at the U.S. Department of Energy's (DOE) Princeton Plasma Physics Laboratory (PPPL). The method grows from simulation of the Princeton Magnetorotational Instability (MRI) Experiment, a unique laboratory device that aims to demonstrate the MRI process that is believed to have filled the cosmos with celestial bodies.
➖@Phytimes➖
#Astrophysics
➖@Phytimes➖
Exploring the source of stars and planets in a laboratory
A new method for verifying a widely held but unproven theoretical explanation of the formation of stars and planets has been proposed by researchers at the U.S. Department of Energy's (DOE) Princeton Plasma Physics Laboratory (PPPL). The method grows from simulation of the Princeton Magnetorotational Instability (MRI) Experiment, a unique laboratory device that aims to demonstrate the MRI process that is believed to have filled the cosmos with celestial bodies.
➖@Phytimes➖
phys.org
Exploring the source of stars and planets in a laboratory
A new method for verifying a widely held but unproven theoretical explanation of the formation of stars and planets has been proposed by researchers at the U.S. Department of Energy's (DOE) Princeton ...
#SpaceNEWS
#Moon
#NASA
➖@Phytimes➖
SOFIA discovers water on sunlit surface of moon
NASA's Stratospheric Observatory for Infrared Astronomy (SOFIA) has confirmed, for the first time, water on the sunlit surface of the Moon. This discovery indicates that water may be distributed across the lunar surface, and not limited to cold, shadowed places.
➖@Phytimes➖
#Moon
#NASA
➖@Phytimes➖
SOFIA discovers water on sunlit surface of moon
NASA's Stratospheric Observatory for Infrared Astronomy (SOFIA) has confirmed, for the first time, water on the sunlit surface of the Moon. This discovery indicates that water may be distributed across the lunar surface, and not limited to cold, shadowed places.
➖@Phytimes➖
phys.org
SOFIA discovers water on sunlit surface of moon
NASA's Stratospheric Observatory for Infrared Astronomy (SOFIA) has confirmed, for the first time, water on the sunlit surface of the Moon. This discovery indicates that water may be distributed across ...
#PhysicsNEWS
#Quantum
➖@Phytimes➖
A new spin on atoms gives scientists a closer look at quantum weirdness
When atoms get extremely close, they develop intriguing interactions that could be harnessed to create new generations of computing and other technologies. These interactions in the realm of quantum physics have proven difficult to study experimentally due the basic limitations of optical microscopes.
➖@Phytimes➖
#Quantum
➖@Phytimes➖
A new spin on atoms gives scientists a closer look at quantum weirdness
When atoms get extremely close, they develop intriguing interactions that could be harnessed to create new generations of computing and other technologies. These interactions in the realm of quantum physics have proven difficult to study experimentally due the basic limitations of optical microscopes.
➖@Phytimes➖
phys.org
A new spin on atoms gives scientists a closer look at quantum weirdness
When atoms get extremely close, they develop intriguing interactions that could be harnessed to create new generations of computing and other technologies. These interactions in the realm of quantum physics ...
#PhysicsNEWS
#MemoryEffect
➖@Phytimes➖
Explaining the physical origin of the memory effect in glasses
Prof. Wang Junqiang's team at the Ningbo Institute of Materials Technology and Engineering (NIMTE) of the Chinese Academy of Sciences (CAS), has revealed the key role of activation entropy in the memory effect of glasses, providing new understanding of the physical origin of the memory effect in glasses. The study was published in Physical Review Letters.
➖@Phytimes➖
#MemoryEffect
➖@Phytimes➖
Explaining the physical origin of the memory effect in glasses
Prof. Wang Junqiang's team at the Ningbo Institute of Materials Technology and Engineering (NIMTE) of the Chinese Academy of Sciences (CAS), has revealed the key role of activation entropy in the memory effect of glasses, providing new understanding of the physical origin of the memory effect in glasses. The study was published in Physical Review Letters.
➖@Phytimes➖
phys.org
Explaining the physical origin of the memory effect in glasses
Prof. Wang Junqiang's team at the Ningbo Institute of Materials Technology and Engineering (NIMTE) of the Chinese Academy of Sciences (CAS), has revealed the key role of activation entropy in the memory ...
#PhysicsNEWS
➖@Phytimes➖
Investigating optical activity under an external magnetic field
Optical activity in chiral molecules has become a hot topic in physics and optics, representing the ability to manipulate the polarized state of light. Understanding how molecules rotate the plane of plane-polarized light has widespread applications, from analytic chemistry to biology and medicine—where it can, for example, be used to detect the amount of sugar in a substance. A new study published in EPJ B by Chengping Yin of the Guangdong Provincial Key Laboratory of Quantum Engineering and Quantum Materials, South China, aims to derive an analytical model of optical activity in black phosphorous under an external magnetic field.
➖@Phytimes➖
➖@Phytimes➖
Investigating optical activity under an external magnetic field
Optical activity in chiral molecules has become a hot topic in physics and optics, representing the ability to manipulate the polarized state of light. Understanding how molecules rotate the plane of plane-polarized light has widespread applications, from analytic chemistry to biology and medicine—where it can, for example, be used to detect the amount of sugar in a substance. A new study published in EPJ B by Chengping Yin of the Guangdong Provincial Key Laboratory of Quantum Engineering and Quantum Materials, South China, aims to derive an analytical model of optical activity in black phosphorous under an external magnetic field.
➖@Phytimes➖
phys.org
Investigating optical activity under an external magnetic field
Optical activity in chiral molecules has become a hot topic in physics and optics, representing the ability to manipulate the polarized state of light. Understanding how molecules rotate the plane of ...
#PhysicsNEWS
#BlackHole
➖@Phytimes➖
Black hole or no black hole: On the outcome of neutron star collisions
A new study lead by GSI scientists and international colleagues investigates black-hole formation in neutron star mergers. Computer simulations show that the properties of dense nuclear matter play a crucial role, which directly links the astrophysical merger event to heavy-ion collision experiments at GSI and FAIR. These properties will be studied more precisely at the future FAIR facility. The results have now been published in Physical Review Letters. With the award of the 2020 Nobel Prize in Physics for the theoretical description of black holes and for the discovery of a supermassive object at the center of our galaxy, the topic currently also receives a lot of attention.
➖@Phytimes➖
#BlackHole
➖@Phytimes➖
Black hole or no black hole: On the outcome of neutron star collisions
A new study lead by GSI scientists and international colleagues investigates black-hole formation in neutron star mergers. Computer simulations show that the properties of dense nuclear matter play a crucial role, which directly links the astrophysical merger event to heavy-ion collision experiments at GSI and FAIR. These properties will be studied more precisely at the future FAIR facility. The results have now been published in Physical Review Letters. With the award of the 2020 Nobel Prize in Physics for the theoretical description of black holes and for the discovery of a supermassive object at the center of our galaxy, the topic currently also receives a lot of attention.
➖@Phytimes➖
phys.org
Black hole or no black hole: On the outcome of neutron star collisions
A new study lead by GSI scientists and international colleagues investigates black-hole formation in neutron star mergers. Computer simulations show that the properties of dense nuclear matter play a ...
#PhysicsNEWS
#DarkMatter
➖@Phytimes➖
Dark matter candidate could display stringy effects in the lab
A hypothetical particle that could solve one of the biggest puzzles in cosmology just got a little less mysterious. A RIKEN physicist and two colleagues have revealed the mathematical underpinnings that could explain how so-called axions might generate string-like entities that create a strange voltage in lab materials
➖@Phytimes➖
#DarkMatter
➖@Phytimes➖
Dark matter candidate could display stringy effects in the lab
A hypothetical particle that could solve one of the biggest puzzles in cosmology just got a little less mysterious. A RIKEN physicist and two colleagues have revealed the mathematical underpinnings that could explain how so-called axions might generate string-like entities that create a strange voltage in lab materials
➖@Phytimes➖
phys.org
Dark matter candidate could display stringy effects in the lab
A hypothetical particle that could solve one of the biggest puzzles in cosmology just got a little less mysterious. A RIKEN physicist and two colleagues have revealed the mathematical underpinnings that ...
#PhysicsNEWS
#Neutrinos
➖@Phytimes➖
Neutrinos yield first experimental evidence of catalyzed fusion dominant in many stars
An international team of about 100 scientists of the Borexino Collaboration, including particle physicist Andrea Pocar at the University of Massachusetts Amherst, report in Nature this week detection of neutrinos from the sun, directly revealing for the first time that the carbon-nitrogen-oxygen (CNO) fusion-cycle is at work in our sun.
➖@Phytimes➖
#Neutrinos
➖@Phytimes➖
Neutrinos yield first experimental evidence of catalyzed fusion dominant in many stars
An international team of about 100 scientists of the Borexino Collaboration, including particle physicist Andrea Pocar at the University of Massachusetts Amherst, report in Nature this week detection of neutrinos from the sun, directly revealing for the first time that the carbon-nitrogen-oxygen (CNO) fusion-cycle is at work in our sun.
➖@Phytimes➖
phys.org
Neutrinos yield first experimental evidence of catalyzed fusion dominant in many stars
An international team of about 100 scientists of the Borexino Collaboration, including particle physicist Andrea Pocar at the University of Massachusetts Amherst, report in Nature this week detection ...
#PhysicsNEWS
➖@Phytimes➖
New computational method validates images without 'ground truth'
A realtor sends a prospective homebuyer a blurry photograph of a house taken from across the street. The homebuyer can compare it to the real thing—look at the picture, then look at the real house—and see that the bay window is actually two windows close together, the flowers out front are plastic and what looked like a door is actually a hole in the wall.
➖@Phytimes➖
➖@Phytimes➖
New computational method validates images without 'ground truth'
A realtor sends a prospective homebuyer a blurry photograph of a house taken from across the street. The homebuyer can compare it to the real thing—look at the picture, then look at the real house—and see that the bay window is actually two windows close together, the flowers out front are plastic and what looked like a door is actually a hole in the wall.
➖@Phytimes➖
phys.org
New computational method validates images without 'ground truth'
A realtor sends a prospective homebuyer a blurry photograph of a house taken from across the street. The homebuyer can compare it to the real thing—look at the picture, then look at the real house—and ...
#SpaceNEWS
➖@Phytimes➖
Solar Orbiter: Turning pictures into physics
Solar Orbiter's latest results show that the mission is making the first direct connections between events at the solar surface and what's happening in interplanetary space around the spacecraft. It is also giving us new insights into solar 'campfires," space weather and disintegrating comets.
➖@Phytimes➖
➖@Phytimes➖
Solar Orbiter: Turning pictures into physics
Solar Orbiter's latest results show that the mission is making the first direct connections between events at the solar surface and what's happening in interplanetary space around the spacecraft. It is also giving us new insights into solar 'campfires," space weather and disintegrating comets.
➖@Phytimes➖
phys.org
Solar Orbiter: Turning pictures into physics
Solar Orbiter's latest results show that the mission is making the first direct connections between events at the solar surface and what's happening in interplanetary space around the spacecraft. It is ...
#PhysicsNEWS
➖@Phytimes➖
A common type of oscillating motion surprisingly mimics the wave behavior of light
An unexpected mathematical connection between a special kind of mechanical motion and the behavior of light has been uncovered by three RIKEN physicists1. This strange link could help physicists to design future particle accelerators as well as investigate hot ionized gases known as plasmas.
➖@Phytimes➖
➖@Phytimes➖
A common type of oscillating motion surprisingly mimics the wave behavior of light
An unexpected mathematical connection between a special kind of mechanical motion and the behavior of light has been uncovered by three RIKEN physicists1. This strange link could help physicists to design future particle accelerators as well as investigate hot ionized gases known as plasmas.
➖@Phytimes➖
phys.org
A common type of oscillating motion surprisingly mimics the wave behavior of light
An unexpected mathematical connection between a special kind of mechanical motion and the behavior of light has been uncovered by three RIKEN physicists1. This strange link could help physicists to design ...
#SpaceNEWS
➖@Phytimes➖
Black holes gain new powers when they spin fast enough
General relativity is a profoundly complex mathematical theory, but its description of black holes is amazingly simple. A stable black hole can be described by just three properties: its mass, its electric charge and its rotation or spin. Since black holes aren't likely to have much charge, it really takes just two properties. If you know a black hole's mass and spin, you know all there is to know about the black hole.
➖@Phytimes➖
➖@Phytimes➖
Black holes gain new powers when they spin fast enough
General relativity is a profoundly complex mathematical theory, but its description of black holes is amazingly simple. A stable black hole can be described by just three properties: its mass, its electric charge and its rotation or spin. Since black holes aren't likely to have much charge, it really takes just two properties. If you know a black hole's mass and spin, you know all there is to know about the black hole.
➖@Phytimes➖
phys.org
Black holes gain new powers when they spin fast enough
General relativity is a profoundly complex mathematical theory, but its description of black holes is amazingly simple. A stable black hole can be described by just three properties: its mass, its electric ...
Which of the following is true about Einstein?
Anonymous Quiz
49%
He was married to his cousin
30%
He won two Nobel Prizes at 1921 and 1915
21%
He was the smartest person on Earth
#Phytimes
Big Announcement Time! All the content on our website is now available on the bot we developed. You can access the content and read articles without leaving telegram. Here is the bot: https://t.me/phytimesloginbot (it is the same bot you use to authenticate your Telegram account into our website). Feed back is appreciated! Let us know in the comments!
Big Announcement Time! All the content on our website is now available on the bot we developed. You can access the content and read articles without leaving telegram. Here is the bot: https://t.me/phytimesloginbot (it is the same bot you use to authenticate your Telegram account into our website). Feed back is appreciated! Let us know in the comments!
Telegram
The Physics Times
The Physics Times - We Love Physics, Don’t You?
#PhysicsNEWS
#Entanglement
➖@Phytimes➖
Researchers create entangled photons 100 times more efficiently than previously possible
Super-fast quantum computers and communication devices could revolutionize countless aspects of our lives—but first, researchers need a fast, efficient source of the entangled pairs of photons such systems use to transmit and manipulate information. Researchers at Stevens Institute of Technology have done just that, not only creating a chip-based photon source 100 times more efficient that previously possible, but bringing massive quantum device integration within reach.
➖@Phytimes➖
#Entanglement
➖@Phytimes➖
Researchers create entangled photons 100 times more efficiently than previously possible
Super-fast quantum computers and communication devices could revolutionize countless aspects of our lives—but first, researchers need a fast, efficient source of the entangled pairs of photons such systems use to transmit and manipulate information. Researchers at Stevens Institute of Technology have done just that, not only creating a chip-based photon source 100 times more efficient that previously possible, but bringing massive quantum device integration within reach.
➖@Phytimes➖
phys.org
Researchers create entangled photons 100 times more efficiently than previously possible
Super-fast quantum computers and communication devices could revolutionize countless aspects of our lives—but first, researchers need a fast, efficient source of the entangled pairs of photons such ...
The Physics Times pinned «#Phytimes Big Announcement Time! All the content on our website is now available on the bot we developed. You can access the content and read articles without leaving telegram. Here is the bot: https://t.me/phytimesloginbot (it is the same bot you use to authenticate…»