#quantumsimulation — Public Fediverse posts

Gaussian boson sampling with 1,024 squeezed states in 8,176 modes

Aaronson, S. & Arkhipov, A. The computational complexity of linear optics. Theory Comput. 9, 143–252 (2013). Article  Google…
#NewsBeep #News #Physics #CA #Canada #HumanitiesandSocialSciences #multidisciplinary #Quantuminformation #Quantumoptics #Quantumsimulation #Science
https://www.newsbeep.com/ca/667512/

https://www.europesays.com/uk/958029/ Gaussian boson sampling with 1,024 squeezed states in 8,176 modes #HumanitiesAndSocialSciences #multidisciplinary #Physics #QuantumInformation #QuantumOptics #QuantumSimulation #Science #UK #UnitedKingdom

Gaussian boson sampling with 1,024 squeezed states in 8,176 modes

Aaronson, S. & Arkhipov, A. The computational complexity of linear optics. Theory Comput. 9, 143–252 (2013). Article  Google…
#NewsBeep #News #Physics #HumanitiesandSocialSciences #multidisciplinary #Quantuminformation #Quantumoptics #Quantumsimulation #Science #UK #UnitedKingdom
https://www.newsbeep.com/uk/582124/

https://www.europesays.com/ie/482961/ Gaussian boson sampling with 1,024 squeezed states in 8,176 modes #Éire #HumanitiesAndSocialSciences #IE #Ireland #multidisciplinary #Physics #QuantumInformation #QuantumOptics #QuantumSimulation #Science

https://www.europesays.com/uk/953624/ Scalable generation of massive Schrödinger cat states via quantum tunnelling #Atomic #ClassicalAndContinuumPhysics #ComplexSystems #CondensedMatterPhysics #general #MathematicalAndComputationalPhysics #Molecular #OpticalAndPlasmaPhysics #Physics #QuantumMetrology #QuantumSimulation #Science #Theoretical #UK #UltracoldGases #UnitedKingdom

https://www.europesays.com/ie/479522/ Scalable generation of massive Schrödinger cat states via quantum tunnelling #Atomic #ClassicalAndContinuumPhysics #ComplexSystems #CondensedMatterPhysics #Éire #general #IE #Ireland #MathematicalAndComputationalPhysics #Molecular #OpticalAndPlasmaPhysics #Physics #QuantumMetrology #QuantumSimulation #Science #Theoretical #UltracoldGases

https://www.europesays.com/uk/936897/ Scientists Unlock Elusive Quantum Effect Long Considered Theoretical in Breakthrough Experiment #Physics #quadsqueezing #QuantumComputing #QuantumPhysics #QuantumSensing #QuantumSimulation #Science #UK #UnitedKingdom #UniversityOfOxford

Scientists Unlock Elusive Quantum Effect Long Considered Theoretical in Breakthrough Experiment

A once-theoretical quantum interaction has been achieved in a breakthrough laboratory experiment by University of Oxford researchers, opening…
#NewsBeep #News #Science #AU #Australia #quadsqueezing #quantumcomputing #QuantumPhysics #quantumsensing #Quantumsimulation #UniversityofOxford
https://www.newsbeep.com/au/645516/

Scientists Unlock Elusive Quantum Effect Long Considered Theoretical in Breakthrough Experiment

A once-theoretical quantum interaction has been achieved in a breakthrough laboratory experiment by University of Oxford researchers, opening…
#NewsBeep #News #Science #AU #Australia #quadsqueezing #quantumcomputing #QuantumPhysics #quantumsensing #Quantumsimulation #UniversityofOxford
https://www.newsbeep.com/au/645516/

https://www.europesays.com/ie/465212/ Scientists Unlock Elusive Quantum Effect Long Considered Theoretical in Breakthrough Experiment #Éire #IE #Ireland #quadsqueezing #QuantumComputing #QuantumPhysics #QuantumSensing #QuantumSimulation #Science #UniversityOfOxford

Digital quantum magnetism on a trapped-ion quantum computer

D’Alessio, L. & Rigol, M. Long-time behavior of isolated periodically driven interacting lattice systems. Phys. Rev. X 4,…
#NewsBeep #News #Physics #AU #Australia #HumanitiesandSocialSciences #Informationtheoryandcomputation #Magneticpropertiesandmaterials #multidisciplinary #Quantumsimulation #Qubits #Science
https://www.newsbeep.com/au/639244/

Scientists, including Johannes Knolle and Hongzheng Zhao, found a way to prevent heating in periodically shaken #quantumsystems, creating stable and long-lived exotic states—a key step for future #quantumtechnologies: http://go.tum.de/390724

#quantumsimulation

📷R. Reich

IBM and University Researchers Create a Never-Before-Seen Molecule and Prove its Exotic Nature with Quantum Computing

– Published today in Science, the discovery marks the creation and observation of the f…
#NewsBeep #News #US #USA #UnitedStates #UnitedStatesOfAmerica #Physics #Electronicstructure #IBMFellow #IBMResearch #Molecule #OxfordUniversity #Quantumcomputing #quantummechanical #Quantumsimulation #Science #UniversityofManchester #UniversityofRegensburg
https://www.newsbeep.com/us/511155/

Simulating fermions with a digital quantum computer

Manin, Y. Computable and Uncomputable (Sovetskoye Radio, 1980). Feynman, R. P. in Feynman and Computation, 133–153 (CRC Press,…
#NewsBeep #News #Physics #CA #Canada #Computationalscience #general #Informationtheoryandcomputation #Quantumchemistry #Quantumsimulation #Science
https://www.newsbeep.com/ca/497020/

Simulating fermions with a digital quantum computer

Manin, Y. Computable and Uncomputable (Sovetskoye Radio, 1980). Feynman, R. P. in Feynman and Computation, 133–153 (CRC Press,…
#NewsBeep #News #Physics #Computationalscience #general #Informationtheoryandcomputation #Quantumchemistry #Quantumsimulation #Science #UK #UnitedKingdom
https://www.newsbeep.com/uk/443394/

Simulating fermions with a digital quantum computer

Manin, Y. Computable and Uncomputable (Sovetskoye Radio, 1980). Feynman, R. P. in Feynman and Computation, 133–153 (CRC Press,…
#NewsBeep #News #Physics #AU #Australia #Computationalscience #general #Informationtheoryandcomputation #Quantumchemistry #Quantumsimulation #Science
https://www.newsbeep.com/au/501533/

https://www.europesays.com/ie/354173/ Simulating fermions with a digital quantum computer #ComputationalScience #Éire #general #IE #InformationTheoryAndComputation #Ireland #Physics #QuantumChemistry #QuantumSimulation #Science

https://www.europesays.com/uk/786344/ Simulating fermions with a digital quantum computer #ComputationalScience #general #InformationTheoryAndComputation #Physics #QuantumChemistry #QuantumSimulation #Science #UK #UnitedKingdom

@sflorg Thanks for the bookmark and interest in follow-up! My TMST already solves Lattice QFT with precise T0 thresholds in Python/NumPy. More on GitHub soon. 😊 #QFT #OpenScience #QuantumSimulation #LatticeQCD #AIforScience

🔗 https://github.com/JavierMartinAlonso1980/entanglement-dominance-tmst

@sflorg Thanks for the bookmark and interest in follow-up! My TMST already solves Lattice QFT with precise T0 thresholds in Python/NumPy. More on GitHub soon. 😊 #QFT #OpenScience #QuantumSimulation #LatticeQCD #AIforScience

🔗 https://github.com/JavierMartinAlonso1980/entanglement-dominance-tmst

@sflorg Thanks for the bookmark and interest in follow-up! My TMST already solves Lattice QFT with precise T0 thresholds in Python/NumPy. More on GitHub soon. 😊 #QFT #OpenScience #QuantumSimulation #LatticeQCD #AIforScience

🔗 https://github.com/JavierMartinAlonso1980/entanglement-dominance-tmst

@sflorg Thanks for the bookmark and interest in follow-up! My TMST already solves Lattice QFT with precise T0 thresholds in Python/NumPy. More on GitHub soon. 😊 #QFT #OpenScience #QuantumSimulation #LatticeQCD #AIforScience

🔗 https://github.com/JavierMartinAlonso1980/entanglement-dominance-tmst

@sflorg Thanks for the bookmark and interest in follow-up! My TMST already solves Lattice QFT with precise T0 thresholds in Python/NumPy. More on GitHub soon. 😊 #QFT #OpenScience #QuantumSimulation #LatticeQCD #AIforScience

🔗 https://github.com/JavierMartinAlonso1980/entanglement-dominance-tmst

Effective descriptions of bosonic systems can be considered complete

Bosonic quantum information theory Quantum information theory with bosonic systems typically involves modeling unbounded operators over infinite-dimensional Hilbert…
#NewsBeep #News #US #USA #UnitedStates #UnitedStatesOfAmerica #Physics #computerscience #HumanitiesandSocialSciences #multidisciplinary #Quantuminformation #Quantumoptics #Quantumsimulation #Science
https://www.newsbeep.com/us/276230/

Entanglement accelerates quantum simulation | Nature Physics

Amico, L., Fazio, R., Osterloh, A. & Vedral, V. Entanglement in many-body systems. Rev. Mod. Phys. 80, 517–576…
#NewsBeep #News #US #USA #UnitedStates #UnitedStatesOfAmerica #Physics #Atomic #ClassicalandContinuumPhysics #ComplexSystems #CondensedMatterPhysics #general #MathematicalandComputationalPhysics #Molecular #OpticalandPlasmaPhysics #Quantuminformation #Quantumsimulation #Science #Theoretical
https://www.newsbeep.com/us/12788/

https://www.europesays.com/uk/219498/ Quantum eMotion Announces Successful Completion of Quantum Simulation Project Evaluating Sentry-Q Cryptographic Architecture #FrancisBellido #Grover'sAlgorithm #Physics #QeM #QuantumCryptography #QuantumEMotion #QuantumSimulation #QuantumSystem #RandomNumberGenerator #RelativeComplexity #Science #UK #UnitedKingdom

💡 Qrisp 0.5 empowers researchers and developers to tackle complex quantum simulations and optimize algorithms with greater ease and efficiency. 🔎 Explore our new tutorials, including H2 molecule simulations and solving Sudoku with Quantum-Backtracking!

#QuantumComputing #Qrisp #SoftwareRelease #QuantumSimulation

Interested in #QuantumMechanics, #QuantumSimulation, or #TensorNetworks? Well, check out my #PhD thesis:

"Parallel Tensor Network Methods for Quantum Lattice Systems: Matrix Product State Simulations on a Supercomputer"

Available to download from my personal website: http://www.secular.me.uk/

Because of the growing multidisciplinary interest in tensor networks, I've tried to make the #thesis as self-contained as possible. I am hoping it will be useful for #Physics, #Chemistry, #Mathematics, and #ComputerScience graduates meeting tensor networks for the first time. It features 700+ references, 100+ figures, 15 epigraphs, and a list of eponyms!

Independent verification of results is an important part of the #scientific process. However - in #physics at least - #replication and #verification studies rarely seem to be published. Despite this, I decided to attempt to verify the results of a groundbreaking Nature Physics paper from 2012, in which the authors describe the first dynamical #quantum #simulator. You can read the fruits of my labour in my #arxiv preprint: "Classical verification of a quantum simulator: local relaxation of a 1D Bose gas". I hope you find it interesting.

https://scirate.com/arxiv/2401.05301

#ScientificProcess #QuantumSimulator #QuantumSimulation #QuantumAdvantage #science #ClassicalVerification #ComputationalPhysics #ParallelComputing #HPC #HighPerfomanceComputing #supercomputer #TensorNetworks #MatrixProductStates #TEBD

Independent verification of results is an important part of the #scientific process. However - in #physics at least - #replication and #verification studies rarely seem to be published. Despite this, I decided to attempt to verify the results of a groundbreaking Nature Physics paper from 2012, in which the authors describe the first dynamical #quantum #simulator. You can read the fruits of my labour in my #arxiv preprint: "Classical verification of a quantum simulator: local relaxation of a 1D Bose gas". I hope you find it interesting.

https://scirate.com/arxiv/2401.05301

#ScientificProcess #QuantumSimulator #QuantumSimulation #QuantumAdvantage #science #ClassicalVerification #ComputationalPhysics #ParallelComputing #HPC #HighPerfomanceComputing #supercomputer #TensorNetworks #MatrixProductStates #TEBD

Independent verification of results is an important part of the #scientific process. However - in #physics at least - #replication and #verification studies rarely seem to be published. Despite this, I decided to attempt to verify the results of a groundbreaking Nature Physics paper from 2012, in which the authors describe the first dynamical #quantum #simulator. You can read the fruits of my labour in my #arxiv preprint: "Classical verification of a quantum simulator: local relaxation of a 1D Bose gas". I hope you find it interesting.

https://scirate.com/arxiv/2401.05301

#ScientificProcess #QuantumSimulator #QuantumSimulation #QuantumAdvantage #science #ClassicalVerification #ComputationalPhysics #ParallelComputing #HPC #HighPerfomanceComputing #supercomputer #TensorNetworks #MatrixProductStates #TEBD

Independent verification of results is an important part of the #scientific process. However - in #physics at least - #replication and #verification studies rarely seem to be published. Despite this, I decided to attempt to verify the results of a groundbreaking Nature Physics paper from 2012, in which the authors describe the first dynamical #quantum #simulator. You can read the fruits of my labour in my #arxiv preprint: "Classical verification of a quantum simulator: local relaxation of a 1D Bose gas". I hope you find it interesting.

https://scirate.com/arxiv/2401.05301

#ScientificProcess #QuantumSimulator #QuantumSimulation #QuantumAdvantage #science #ClassicalVerification #ComputationalPhysics #ParallelComputing #HPC #HighPerfomanceComputing #supercomputer #TensorNetworks #MatrixProductStates #TEBD

Independent verification of results is an important part of the #scientific process. However - in #physics at least - #replication and #verification studies rarely seem to be published. Despite this, I decided to attempt to verify the results of a groundbreaking Nature Physics paper from 2012, in which the authors describe the first dynamical #quantum #simulator. You can read the fruits of my labour in my #arxiv preprint: "Classical verification of a quantum simulator: local relaxation of a 1D Bose gas". I hope you find it interesting.

https://scirate.com/arxiv/2401.05301

#ScientificProcess #QuantumSimulator #QuantumSimulation #QuantumAdvantage #science #ClassicalVerification #ComputationalPhysics #ParallelComputing #HPC #HighPerfomanceComputing #supercomputer #TensorNetworks #MatrixProductStates #TEBD

Making Trotterization Adaptive and Energy-Self-Correcting for NISQ Devices and Beyond

Digital quantum simulation requires time discretization by means of Trotterization. A finer time step improves simulation precision but inevitably leads to increased experimental errors for today’s noisy intermediate-scale quantum computers. Check out in our recent publication how to make Trotterization adaptive:

https://journals.aps.org/prxquantum/abstract/10.1103/PRXQuantum.4.030319

#quantumsimulation #nisq #quantumcomputer #trotterization

Making Trotterization Adaptive and Energy-Self-Correcting for NISQ Devices and Beyond

Digital quantum simulation requires time discretization by means of Trotterization. A finer time step improves simulation precision but inevitably leads to increased experimental errors for today’s noisy intermediate-scale quantum computers. Check out in our recent publication how to make Trotterization adaptive:

https://journals.aps.org/prxquantum/abstract/10.1103/PRXQuantum.4.030319

#quantumsimulation #nisq #quantumcomputer #trotterization

Making Trotterization Adaptive and Energy-Self-Correcting for NISQ Devices and Beyond

Digital quantum simulation requires time discretization by means of Trotterization. A finer time step improves simulation precision but inevitably leads to increased experimental errors for today’s noisy intermediate-scale quantum computers. Check out in our recent publication how to make Trotterization adaptive:

https://journals.aps.org/prxquantum/abstract/10.1103/PRXQuantum.4.030319

#quantumsimulation #nisq #quantumcomputer #trotterization

Making Trotterization Adaptive and Energy-Self-Correcting for NISQ Devices and Beyond

Digital quantum simulation requires time discretization by means of Trotterization. A finer time step improves simulation precision but inevitably leads to increased experimental errors for today’s noisy intermediate-scale quantum computers. Check out in our recent publication how to make Trotterization adaptive:

https://journals.aps.org/prxquantum/abstract/10.1103/PRXQuantum.4.030319

#quantumsimulation #nisq #quantumcomputer #trotterization

Making Trotterization Adaptive and Energy-Self-Correcting for NISQ Devices and Beyond

Digital quantum simulation requires time discretization by means of Trotterization. A finer time step improves simulation precision but inevitably leads to increased experimental errors for today’s noisy intermediate-scale quantum computers. Check out in our recent publication how to make Trotterization adaptive:

https://journals.aps.org/prxquantum/abstract/10.1103/PRXQuantum.4.030319

#quantumsimulation #nisq #quantumcomputer #trotterization

Microsoft Quantum researchers have developed faster algorithms for quantum simulation to tackle intractable problems in physics and materials science. Published in PRX Quantum

https://cloudblogs.microsoft.com/quantum/2023/06/08/microsoft-quantum-researchers-make-algorithmic-advances-to-tackle-intractable-problems-in-physics-and-materials-science

#QuantumComputing #QuantumSimulation #QC #Quantum #TrotterSteps

Fresh delivery: a (heavy & stable) foundation for groundbreaking research on #QuantumComputing and #QuantumSimulation with fermionic 171Yb atoms as part of the MQV activities in the group of Monika Aidelsburger at Ludwig-Maximilians-Universität München.

Find out more about the group and their research at https://www.sqm.physik.lmu.de/research/rydberg/

#MQVresearch

Fresh delivery: a (heavy & stable) foundation for groundbreaking research on #QuantumComputing and #QuantumSimulation with fermionic 171Yb atoms as part of the MQV activities in the group of Monika Aidelsburger at Ludwig-Maximilians-Universität München.

Find out more about the group and their research at https://www.sqm.physik.lmu.de/research/rydberg/

#MQVresearch

Fresh delivery: a (heavy & stable) foundation for groundbreaking research on #QuantumComputing and #QuantumSimulation with fermionic 171Yb atoms as part of the MQV activities in the group of Monika Aidelsburger at Ludwig-Maximilians-Universität München.

Find out more about the group and their research at https://www.sqm.physik.lmu.de/research/rydberg/

#MQVresearch

Fresh delivery: a (heavy & stable) foundation for groundbreaking research on #QuantumComputing and #QuantumSimulation with fermionic 171Yb atoms as part of the MQV activities in the group of Monika Aidelsburger at Ludwig-Maximilians-Universität München.

Find out more about the group and their research at https://www.sqm.physik.lmu.de/research/rydberg/

#MQVresearch

Fresh delivery: a (heavy & stable) foundation for groundbreaking research on #QuantumComputing and #QuantumSimulation with fermionic 171Yb atoms as part of the MQV activities in the group of Monika Aidelsburger at Ludwig-Maximilians-Universität München.

Find out more about the group and their research at https://www.sqm.physik.lmu.de/research/rydberg/

#MQVresearch