#QuantumComputing
➖@Physics_Revives➖
Keeping America first in quantum computing means avoiding these five big mistakes
➖@Physics_Revives➖
*Read the Original Article here*
➖@Physics_Revives➖
Keeping America first in quantum computing means avoiding these five big mistakes
➖@Physics_Revives➖
*Read the Original Article here*
MIT Technology Review
Keeping America first in quantum computing means avoiding these five big mistakes
Potential pitfalls include putting the military in charge and spraying too much money around.
#PhysicsNEWS
#QuantumCOmputing
#Qubits
➖@Physics_Revives➖
Qubits that operate at room temperature
Scientists from NUST MISIS (Russia) together with colleagues from Sweden, Hungary and U.S., found a way to manufacture stable qubits that operate at room temperature, in contrast to the majority of existing analogues. This opens up new prospects for creating a quantum computer. Moreover, the results of the research can already be used to create high-accuracy magnetometers, biosensors and new quantum Internet technologies. The article is published in Nature Communications.
➖@Physics_Revives➖
#QuantumCOmputing
#Qubits
➖@Physics_Revives➖
Qubits that operate at room temperature
Scientists from NUST MISIS (Russia) together with colleagues from Sweden, Hungary and U.S., found a way to manufacture stable qubits that operate at room temperature, in contrast to the majority of existing analogues. This opens up new prospects for creating a quantum computer. Moreover, the results of the research can already be used to create high-accuracy magnetometers, biosensors and new quantum Internet technologies. The article is published in Nature Communications.
➖@Physics_Revives➖
phys.org
Qubits that operate at room temperature
Scientists from NUST MISIS (Russia) together with colleagues from Sweden, Hungary and U.S., found a way to manufacture stable qubits that operate at room temperature, in contrast to the majority of existing ...
#PhysicsNEWS
#Quantum
#Quantumcomputing
➖@Phytimes➖
Researchers on a path to build powerful and practical quantum computer
For the first time, researchers have designed a fully connected 32-qubit trapped-ion quantum computer register operating at cryogenic temperatures. The new system represents an important step toward developing practical quantum computers.
➖@Phytimes➖
#Quantum
#Quantumcomputing
➖@Phytimes➖
Researchers on a path to build powerful and practical quantum computer
For the first time, researchers have designed a fully connected 32-qubit trapped-ion quantum computer register operating at cryogenic temperatures. The new system represents an important step toward developing practical quantum computers.
➖@Phytimes➖
phys.org
Researchers on a path to build powerful and practical quantum computer
For the first time, researchers have designed a fully connected 32-qubit trapped-ion quantum computer register operating at cryogenic temperatures. The new system represents an important step toward developing ...
#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 ...