The Mac
@TheMac
09 June, 08:55
Note:
Before a large-scale quantum internet sees the light of day, however, a lot of research is left to do to find out how best to encode, compress and transmit information thanks to quantum states. Typically, quantum information can be encoded in electrons that are trapped in artificially made crystals containing thousands of atoms, called quantum dots.
It is one thing to use a quantum dot to store quantum information, but it is another to then find and retrieve the data – and this is where the noisy, messy spin of the atomic nuclei is problematic.
"The solution (…) is to store the fragile quantum information by hiding it in the cloud of 100,000 atomic nuclei that each quantum dot contains, like a needle in a haystack," said Mete Atatüre, professor at Cambridge's Cavendish Laboratory, who led the research. "But if we try to communicate with these nuclei like we communicate with bits, they tend to 'flip' randomly, creating a noisy system."
Before a large-scale quantum internet sees the light of day, however, a lot of research is left to do to find out how best to encode, compress and transmit information thanks to quantum states. Typically, quantum information can be encoded in electrons that are trapped in artificially made crystals containing thousands of atoms, called quantum dots.
It is one thing to use a quantum dot to store quantum information, but it is another to then find and retrieve the data – and this is where the noisy, messy spin of the atomic nuclei is problematic.
"The solution (…) is to store the fragile quantum information by hiding it in the cloud of 100,000 atomic nuclei that each quantum dot contains, like a needle in a haystack," said Mete Atatüre, professor at Cambridge's Cavendish Laboratory, who led the research. "But if we try to communicate with these nuclei like we communicate with bits, they tend to 'flip' randomly, creating a noisy system."
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The Mac
@TheMac
09 June, 08:57
In response The Mac to his Publication
The buzz of the cloud, in other words, makes it extremely challenging to retrieve information from the quantum dot. Cambridge's scientists devised a method to use the light from a laser to control an electron, which in turn can control the chaotic ensemble of nuclei spins. The electron can communicate with the cloud to create a collective spin wave that all nuclei follow – meaning that it is much easier to identify the qubit carrying quantum information when its spin flips.
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The Mac
@TheMac
09 June, 08:59
In response The Mac to his Publication
Researchers have unveiled a new technique that they claim will make it possible to send, store and retrieve highly fragile quantum information, in an achievement that could break new ground in the field of quantum communications, and particularly in the future development of a quantum internet.
The researchers, from the University of Cambridge, designed a method to better control the behavior of a cloud of atomic nuclei in which they had injected a single particle encoded with quantum information, also called a quantum bit. This comes with a noise problem: with every nuclei spinning in a different direction within the cloud, it is near-impossible to identify the particle carrying information.
Using laser beams and a single electron, however, the physicists were able to control the spins of the nuclei, restore some order in the cloud, and as a result, detect the existence of the quantum information much easier.
The researchers, from the University of Cambridge, designed a method to better control the behavior of a cloud of atomic nuclei in which they had injected a single particle encoded with quantum information, also called a quantum bit. This comes with a noise problem: with every nuclei spinning in a different direction within the cloud, it is near-impossible to identify the particle carrying information.
Using laser beams and a single electron, however, the physicists were able to control the spins of the nuclei, restore some order in the cloud, and as a result, detect the existence of the quantum information much easier.
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The Mac
@TheMac
09 June, 09:00
In response The Mac to his Publication
The process is similar to finding a needle in a haystack, with a little extra help from experimental physics: the researchers injected a "needle" of quantum information in a "haystack" of nuclei, and then managed to control the behavior of the haystack to make it easier to find the needle. With success: the scientists were able to pin down a single qubit among a cloud of 100,000 spinning nuclei.
As the race to develop a fully fledged quantum computer accelerates around the world, so is interest in quantum communications growing. Closely tied to quantum computing, the field is concerned with developing ways to send and receive quantum information in the form of qubits. The idea is at the heart of the quantum internet, a project pursued by many countries around the world, which seeks to create a network that will let quantum devices exchange quantum information.
As the race to develop a fully fledged quantum computer accelerates around the world, so is interest in quantum communications growing. Closely tied to quantum computing, the field is concerned with developing ways to send and receive quantum information in the form of qubits. The idea is at the heart of the quantum internet, a project pursued by many countries around the world, which seeks to create a network that will let quantum devices exchange quantum information.
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The Mac
@TheMac
09 June, 09:06
In response The Mac to his Publication
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The Mac
@TheMac
09 June, 09:10
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A trapped ion quantum computer is one proposed approach to a large-scale quantum computer. Ions, or charged atomic particles, can be confined and suspended in free space using electromagnetic fields. Qubits are stored in stable electronic states of each ion, and quantum information can be transferred through the collective quantized motion of the ions in a shared trap (interacting through the Coulomb force). Lasers are applied to induce coupling between the qubit states (for single qubit operations) or coupling between the internal qubit states and the external motional states (for entanglement between qubits).
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The Mac
@TheMac
09 June, 09:11
In response The Mac to his Publication
The fundamental operations of a quantum computer have been demonstrated experimentally with the currently highest accuracy in trapped ion systems. Promising schemes in development to scale the system to arbitrarily large numbers of qubits include transporting ions to spatially distinct locations in an array of ion traps, building large entangled states via photonically connected networks of remotely entangled ion chains, and combinations of these two ideas. This makes the trapped ion quantum computer system one of the most promising architectures for a scalable, universal quantum computer. As of April 2018, the largest number of particles to be controllably entangled is 20 trapped ions.
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The Mac
@TheMac
09 June, 09:14
In response The Mac to his Publication
The full requirements for a functional quantum computer are not entirely known,
https://www.nextgov.com/it...
but there are many generally accepted requirements. David DiVincenzo outlined several of these criterion for quantum computing.
https://www.nextgov.com/it...
but there are many generally accepted requirements. David DiVincenzo outlined several of these criterion for quantum computing.
CIA Awards Secret Multibillion-Dollar Cloud Contract - Nextgov
The agency has awarded a contract to bring foundational cloud services from multiple cloud service providers into the intelligence community.
https://www.nextgov.com/it-modernization/2020/11/exclusive-cia-awards-secret-multibillion-dollar-cloud-contract/170227/Notice: Undefined index: tg1tga_access in /home/admin/www/anonup.com/themes/default/apps/timeline/post.phtml on line 396
The Mac
@TheMac
09 June, 09:14
In response The Mac to his Publication
Qubits
Any two-level quantum system can form a qubit, and there are two predominant ways to form a qubit using the electronic states of an ion:
Two ground state hyperfine levels (these are called "hyperfine qubits")
A ground state level and an excited level (these are called the "optical qubits")
Hyperfine qubits are extremely long-lived (decay time of the order of thousands to millions of years) and phase/frequency stable (traditionally used for atomic frequency standards). Optical qubits are also relatively long-lived (with a decay time of the order of a second), compared to the logic gate operation time (which is of the order of microseconds). The use of each type of qubit poses its own distinct challenges in the laboratory.
Any two-level quantum system can form a qubit, and there are two predominant ways to form a qubit using the electronic states of an ion:
Two ground state hyperfine levels (these are called "hyperfine qubits")
A ground state level and an excited level (these are called the "optical qubits")
Hyperfine qubits are extremely long-lived (decay time of the order of thousands to millions of years) and phase/frequency stable (traditionally used for atomic frequency standards). Optical qubits are also relatively long-lived (with a decay time of the order of a second), compared to the logic gate operation time (which is of the order of microseconds). The use of each type of qubit poses its own distinct challenges in the laboratory.
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The Mac
@TheMac
09 June, 09:28
In response The Mac to his Publication
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The Mac
@TheMac
09 June, 09:31
In response The Mac to his Publication
inquire
/ɪnˈkwʌɪə/
verb: inquire; 3rd person present: inquires; gerund or present participle: inquiring; past tense: inquired; past participle: inquired; verb: enquire; 3rd person present: enquires; past tense: enquired; past participle: enquired; gerund or present participle: enquiring
/ɪnˈkwʌɪə/
verb: inquire; 3rd person present: inquires; gerund or present participle: inquiring; past tense: inquired; past participle: inquired; verb: enquire; 3rd person present: enquires; past tense: enquired; past participle: enquired; gerund or present participle: enquiring
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The Mac
@TheMac
09 June, 09:32
In response The Mac to his Publication
Highlights
•
An array of normal and magnetic quantum dots with Rashba effect is studied.
•
Spin-dependent persistent current and DOS are studied using Green function method.
•
The magnetic quantum dot breaks degeneracy of DOS of up and down spin electrons.
•
The persistent spin and charge currents are tuned by adjusting the Rashba constant.
•
The persistent charge current induces tunable magnetic field at the center of ring.
•
An array of normal and magnetic quantum dots with Rashba effect is studied.
•
Spin-dependent persistent current and DOS are studied using Green function method.
•
The magnetic quantum dot breaks degeneracy of DOS of up and down spin electrons.
•
The persistent spin and charge currents are tuned by adjusting the Rashba constant.
•
The persistent charge current induces tunable magnetic field at the center of ring.
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The Mac
@TheMac
09 June, 09:34
In response The Mac to his Publication
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The Mac
@TheMac
09 June, 09:41
In response The Mac to his Publication
UK home to 300,000 paedophiles who may ‘exploit coronavirus crisis’ to target children
‘Offenders are discussing opportunities to abuse children during the crisis,’ National Crime Agency warns
‘Offenders are discussing opportunities to abuse children during the crisis,’ National Crime Agency warns
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The Mac
@TheMac
09 June, 09:46
In response The Mac to his Publication
A member of the Royal family was claimed to be part of a suspected paedophile ring under investigation by police in the late 1980s, a former police officer has said.
The former Metropolitan Police officer says he was told by a detective sergeant that the investigation into the ring, which was also claimed to include an MP, was shut down for national security reasons.
“I was in a car with two other vice squad officers. … The detective sergeant said he had just had a major child abuse investigation shut down by the CPS regarding a royal and an MP,” he told the Sunday Mirror newspaper.
“He did not mention names, but he said the CPS had said it was not in the public’s interest because it ‘could destabilise national security’.”
The former Metropolitan Police officer says he was told by a detective sergeant that the investigation into the ring, which was also claimed to include an MP, was shut down for national security reasons.
“I was in a car with two other vice squad officers. … The detective sergeant said he had just had a major child abuse investigation shut down by the CPS regarding a royal and an MP,” he told the Sunday Mirror newspaper.
“He did not mention names, but he said the CPS had said it was not in the public’s interest because it ‘could destabilise national security’.”
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The Mac
@TheMac
09 June, 09:48
In response The Mac to his Publication
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The Mac
@TheMac
09 June, 09:49
In response The Mac to his Publication
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The Mac
@TheMac
09 June, 09:51
In response The Mac to his Publication
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The Mac
@TheMac
09 June, 09:51
In response The Mac to his Publication
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The Mac
@TheMac
09 June, 09:54
In response The Mac to his Publication
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The Mac
@TheMac
09 June, 09:55
In response The Mac to his Publication
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The Mac
@TheMac
09 June, 09:56
In response The Mac to his Publication
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The Mac
@TheMac
09 June, 09:58
In response The Mac to his Publication
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The Mac
@TheMac
09 June, 09:59
In response The Mac to his Publication
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The Mac
@TheMac
09 June, 10:12
In response The Mac to his Publication
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The Mac
@TheMac
09 June, 10:13
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Both Boeing and Honeywell have contributed significantly to the introduction of digital autopilot technology into the civil aviation sector. A patent for the system was awarded to Boeing in 2006. Honeywell has also been developing a system with Airbus, and a prototype has been tested on small aircraft.
Conspiracy theorists have claimed that the technology has been secretly fitted to some commercial airliners. Some, including historian Norman Davies, have blamed it for the disappearance of Malaysia Airlines Flight 370, whose cause is unknown as of 2021.
Conspiracy theorists have claimed that the technology has been secretly fitted to some commercial airliners. Some, including historian Norman Davies, have blamed it for the disappearance of Malaysia Airlines Flight 370, whose cause is unknown as of 2021.
10:15 AM - Jun 09, 2021
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The Mac
@TheMac
09 June, 10:18
In response The Mac to his Publication
New emails provide a fuller look into the former secretary of state’s advocacy for Boeing. The company helped her reach a major foreign-policy goal, gave over $1 million to the Clinton Foundation and sponsored speeches that paid former President Clinton six-figure sums.
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The Mac
@TheMac
09 June, 10:27
In response The Mac to his Publication
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