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I am trying to grasp some aspects of the quantum entanglement, but the existing resources (including some of the links here) seem a bit confusing. I am trying to find an answer to the following questions. If two particles are entangled and then separated, will affecting one of them affect the other (for example, the p... | Bearing in mind I am a layman - with no background in physics - please could someone explain what the "big deal" is with quantum entanglement? I used to think I understood it - that 2 particles, say a light-year apart spatially, could affect each other physically, instantly. Here I would understand the "big deal". O... | It is often stated, particularly in popular physics articles and videos, that if one measures a particle A that is entangled with some other particle B, then this measurement will immediately affect the state of the entangled partner. For example, if Alice and Bob share an entangled pair of electrons and Alice measure... | eng_Latn | 4,100 |
Nonrelativistic QM can be applied to bound states like a hydrogen atom. QFT is used for free particles (whatever one means by particles) that shortly interact with each other and are free again after the interaction. Can QFT also be used for bound states? | Is there a theorem that says that QFT reduces to QM in a suitable limit? Of course, it should be, as QFT is relativisitc quantum mechanics. But, is there a more manifest one? such as Ehrenfest's theorem which dictates the transition from QM to Classical Mechanics. I am curious as the basic object in QM is wave functio... | I don't understand how quantum mechanics (and therefore also quantum computers) can work given that while we work with quantum states, particles that this quantum state consist of cannot be observed, which is the most fundamental requirement. If I am not mistaken, by "observed" we mean interaction with any other part... | eng_Latn | 4,101 |
The road towards quantum computers have so many obstacles, which are deeply different and more challenging than the problems that we had with the development of classical computers. There are reasons to believe that quantum computers with a "large enough" number of qubits and low decoherence to be actually us... | I mean are we certain that they will be able to provide us a huge improvements (in some tasks) compared to clasical computers? | I mean are we certain that they will be able to provide us a huge improvements (in some tasks) compared to clasical computers? | eng_Latn | 4,102 |
Measuring quantum entanglement in paper by Ma et al | Delayed choice entanglement swapping: why are Alice & Bob's measurements useless without Victor's? | Does measurement, quantum in particular, always increase the total entropy? | eng_Latn | 4,103 |
How are quantum computers more powerful than classical computers? | What exactly makes quantum computers faster than classical computers? | What exactly makes quantum computers faster than classical computers? | eng_Latn | 4,104 |
Questions about Schrodinger's cat | What is an observer in quantum mechanics? | A fiber bundle over Euclidean space is trivial. | eng_Latn | 4,105 |
Invariance of maximally entangled state | Invariance of a maximally entangled state under unitary operation $U \otimes U^\dagger$ | (Why) Has Kohonen-style SOM fallen out of favor? | eng_Latn | 4,106 |
What does observation mean in two-slit electron diffraction experiment? | What constitutes an observation/measurement in QM? | Totally disconnected space that is not $T_2$ | eng_Latn | 4,107 |
Which mode is a cantilever oscillating at when twanged at one side and changing the length? | Derive equation for a cantilever in SHM | Delayed choice entanglement swapping: why are Alice & Bob's measurements useless without Victor's? | eng_Latn | 4,108 |
How viable is using Quantum Entanglement for long distance communication? | Quantum entanglement as practical method of superluminal communication | A fiber bundle over Euclidean space is trivial. | eng_Latn | 4,109 |
Quantum Entanglement and transfer of time information, is it possible? If two particles are quantum entangled...let’s call them particle A and particle B. You measure the state of particle A. At this point, can you know the exact time at which the particle B goes from superposition into a known state due to the remot... | The choice of measurement basis on one half of an entangled state affects the other half. Can this be used to communicate faster than light? It is often stated, particularly in popular physics articles and videos, that if one measures a particle A that is entangled with some other particle B, then this measurement will... | Is a hash a zero-knowledge proof? I’m trying to wrap my head around zero knowledge proofs, but I’m having trouble understanding it. In my current understanding, zero-knowledge proofs prove to the recipient that the sender has a certain knowledge without disclosing it. Like trying to say your password without actually ... | eng_Latn | 4,110 |
Clarification on the information content of a qubit I saw a video in which a guy from IBM was explaining (very generally) quantum computing, it's difference with classical computing etc. The talk was not technical at all, it was intended for a broad audience. At some point he told that, if we need to represent our po... | How can infinite information be theoretically encoded or stored in a single qubit? I've just gotten started with Nielsen and Chuang's text, and I'm a little stuck. They mention that theoretically, it would be possible to store an infinite amount of information in the state of a single qubit. I'm not sure I completely c... | What do the supercharges in extended supersymmetry do? What do the supercharges in do? In ${\cal N}=1$ supersymmetry there are a certain number of fermions and and equal number of bosons. You can transform all fermions to the bosons (and vice versa) in a 1 to 1 fashion using a single supercharge, $Q$. So what happen... | eng_Latn | 4,111 |
How does one cluster multiple machines to act as one to run multiple virtual machines on this single-seeming machine? How does one take multiple computers and make them act as one, such that all their processors and memory are combined now and you are running any application such that yo are running them on a single ve... | Multiple servers acting like a single one with all the hardware? by now I have 10 servers for hpc, power computing oriented. My users need to launch several processes using qmake. The users are used to work with ubuntu 9.10, and the software from the repositories is switable for them. I've deployed ubuntu 9.10 to all ... | What does a "real" quantum computer need for cryptanalysis and/or cryptographic attack purposes? The cryptographic world has been buzzing the word "quantum" for a while now (even the NSA is currently preparing itself for a post-quantum crypto world) and quantum-related hardware engineering is evolving constantly. For e... | eng_Latn | 4,112 |
Can quantum correlations due to measurement be used for quantum communication? My understanding of quantum entanglement is that when you measure the state of an entangled particle, its counterpart will measure a correlated state, i.e. we know for sure that if for example Particle A is measured to be in state A, then pa... | Why is quantum entanglement considered to be an active link between particles? From everything I've read about quantum mechanics and quantum entanglement phenomena, it's not obvious to me why quantum entanglement is considered to be an active link. That is, it's stated every time that measurement of one particle affect... | Why is channel capacity a factor of bandwidth instead of frequency? I'm trying to understand the concept of capacity for a wireless channel. Some help would be appreciated. For a AWGN channel capacity is calculated as: $$C=B \cdot log_2(1 + S/N)\text{ bits/sec}$$ B = bandwidth. This is what I don't understand. Wh... | eng_Latn | 4,113 |
What lives in the Hilbert Space? Consider the eigenvalue equation: $$\hat{Q}\Psi = q\Psi$$ where $q$ and $\Psi$ are eigenvalues and eigenfunctions of the hermitian operator $\hat{Q}$. If the spectrum of the hermitian operator is discrete, then the eigenfunctions lie in the Hilbert Space and constitute physically real... | Why are eigenfunctions which correspond to discrete/continuous eigenvalue spectra guaranteed to be normalizable/non-normalizable? These facts are taken for granted in a QM text I read. The purportedly guaranteed non-normalizability of eigenfunctions which correspond to a continuous eigenvalue spectrum is only partly ju... | Quantum Hall effect for dummies In the past few days I've become increasingly intrigued by the QHE, mainly thanks to very interesting questions and answers that have appeared here. Unfortunately, I am as of yet very confused by all the (seemingly disparate) stuff I learned. First, here are some random points that I've... | eng_Latn | 4,114 |
Thermodynamic process with a decrease in entropy | Don't certain processes decrease entropy? | Does measurement, quantum in particular, always increase the total entropy? | eng_Latn | 4,115 |
Need help understanding weird definition of pure states | Differences between pure/mixed/entangled/separable/superposed states | Does moving leave the object in a usable state? | eng_Latn | 4,116 |
Are quantum computers just massively parallel computers? | Can a parallel computer simulate a quantum computer? Is BQP inside NP? | SQL not engaging parallelism for extremely large query | eng_Latn | 4,117 |
Is the spin of a particle always a 50/50 chance of being different after measuring it in Quantum Entanglement | Is the wave function of a particle re-created after a measurement stops? | Story where the protagonist is turned off from an automated system of professional attribution and instant learning | eng_Latn | 4,118 |
Does quantum entanglement imply a universal "now"? | Why is quantum entanglement considered to be an active link between particles? | FireFox 66 Quantum disabled all my extensions at midnight! | eng_Latn | 4,119 |
Quantum Harmonic Oscillator: is it impossible that the particle is at certain points? | Is there actually a 0 probability of finding an electron in an orbital node? | Consistent, complete, and generalized description of the quantum harmonic oscillator | eng_Latn | 4,120 |
Difference between classical spin and quantum spin | What is spin as it relates to subatomic particles? | What exactly makes quantum computers faster than classical computers? | eng_Latn | 4,121 |
Can we use quantum entanglement as a way to send information or data? | Quantum entanglement: does it necessarily imply superluminal information transfer? | Why we don't use gamma rays, x-rays or ultraviolet to transmit data? | eng_Latn | 4,122 |
I find there are two methods to calculate the amplitude in QFT. Is it equivalent? | Quantum Field Theory without LSZ, how is it possible? | Why there is no operator for time in QM? | eng_Latn | 4,123 |
go to http://www.cs.caltech.edu/~westside/quantum-intro.html\nand then go to the second image/experiment.\n\nwhy does detector A, and not B, register 100% of the time?\n\ncauses detector A to register 100% of the time, and never at detector B! \n\nPlease note that my question is a bit different --\n\nI am asking what ... | I admire mathematician's concise answers, but in this case some additional explanation may be due:\n\nWhen a wave is partially transmitted and partially reflected the two outgoing waves are shifted in phase from the incident wave. If energy or probability is to be conserved, the difference between the two phase shifts ... | Check to verify the IP addresses of both laptops do not match. This is one potential reason for only one working at a time.\n\nI suggest placing both laptops in DHCP mode. | eng_Latn | 4,124 |
Enhanced Quantum Synchronization via Quantum Machine Learning | Selected techniques for data mining in medicine. | An ambulatory surgical procedure under local anesthesia for treatment of female urinary incontinence | eng_Latn | 4,125 |
Analyzing, Detecting, and Exploiting Sentiment in Web Queries | A taxonomy of web search | Strengths and Weaknesses of Quantum Computing | eng_Latn | 4,126 |
Towards a Quantum World Wide Web | Quantum Interference and Superposition in Cognition: Development of a Theory for the Disjunction of Concepts | Mosaics of scenes with moving objects | kor_Hang | 4,127 |
Quantum Communication in Rindler Spacetime | Quantum Computation and Quantum Information | A scalable modular antenna configuration to extend the detection volume of a near-field UHF-RFID desktop reader | eng_Latn | 4,128 |
Quantum machine learning for electronic structure calculations | Towards Quantum Chemistry on a Quantum Computer | The Trotter Step Size Required for Accurate Quantum Simulation of Quantum Chemistry | eng_Latn | 4,129 |
Efficient mapping of quantum circuits to the IBM QX architectures | A fast quantum mechanical algorithm for database search | Auditory brainstem responses with optimized chirp signals compensating basilar-membrane dispersion. | eng_Latn | 4,130 |
A linear-optical proof that the permanent is #P-hard | Quantum Computation and Quantum Information | Who, when, and why: a machine learning approach to prioritizing students at risk of not graduating high school on time | eng_Latn | 4,131 |
Optimizing Quantum Circuits for Arithmetic | quantum algorithm for linear systems of equations . | End-to-End Learnable Histogram Filters | eng_Latn | 4,132 |
Evolution in Quantum Computing | Quantum Computation and Quantum Information | Scalable Dense Non-rigid Structure-from-Motion: A Grassmannian Perspective | kor_Hang | 4,133 |
Quantum Public-Key Cryptosystems | Strengths and Weaknesses of Quantum Computing | Miniaturized antenna for LTE wireless USB dongle applications | kor_Hang | 4,134 |
Applying Quantum Optimization Algorithms for Linear Programming | Quantum Machine Learning Algorithms : Read the Fine Print | Designing for the Safety of Pedestrians, Cyclists, and Motorists in Urban Environments | eng_Latn | 4,135 |
Fuzzy multi-objective mathematical programming on reliability optimization model | fuzzy set theory ― and its applications . | Designing a Million-Qubit Quantum Computer Using a Resource Performance Simulator | eng_Latn | 4,136 |
Inverse Optimization : A New Perspective on the Black-Litterman Model | The Intuition Behind Black-Litterman Model Portfolios | quantum dice or , testable exponential randomness expansion . | yue_Hant | 4,137 |
Quantum computation, quantum theory and AI | THE EMPEROR'S NEW MIND Concerning Computers, Minds and the Laws of Physics | Imbalances in Dietary Consumption of Fatty Acids, Vegetables, and Fruits Are Associated With Risk for Crohn's Disease in Children | yue_Hant | 4,138 |
Quantum reinforcement learning | Quantum Computation and Quantum Information | The multiprocessor real -time scheduling of general task systems | eng_Latn | 4,139 |
Towards a quantum programming language | Algorithms for Quantum Computation: Discrete Log and Factoring (Extended Abstract) | Automatic 3D ear reconstruction based on binocular stereo vision | eng_Latn | 4,140 |
A construction of cryptography system based on quantum neural network | Classification of Substitution Ciphers using Neural Networks | Physical-Layer Network Coding: Tutorial, Survey, and Beyond | eng_Latn | 4,141 |
Communicating quantum processes | Quantum Computation and Quantum Information | Turning the crown upside down: gene tree parsimony roots the eukaryotic tree of life. | eng_Latn | 4,142 |
Simulating quantum computers with probabilistic methods | the heisenberg representation of quantum computers . | IRWRLDA: improved random walk with restart for lncRNA-disease association prediction | eng_Latn | 4,143 |
Discovering Combos in Fighting Games with Evolutionary Algorithms | An experiment in automatic game design | Control of Quantum-Confined Stark Effect in InGaN-Based Quantum Wells | eng_Latn | 4,144 |
Projective simulation for artificial intelligence | quantum mechanics helps in searching for a needle in a haystack . | vlsi implementation of deep neural networks using integral stochastic computing . | eng_Latn | 4,145 |
Large-scale modular quantum-computer architecture with atomic memory and photonic interconnects | Quantum Computation and Quantum Information | Two sisters resembling Gorlin-Chaudhry-Moss syndrome. | eng_Latn | 4,146 |
Quantum cognition goes beyond-quantum: modeling the collective participant in psychological measurements | Quantum Interference and Superposition in Cognition: Development of a Theory for the Disjunction of Concepts | Sequential vs. Hierarchical Syntactic Models of Human Incremental Sentence Processing | eng_Latn | 4,147 |
What is the quantum for energy and quantum of time? | If there is a quantum for time, it must be on the order of 10 to the minus fortieth power seconds, the time required for the smallest particle interaction between two particles that are separated by the theoretical diameter of the smaller of the two-- in other words, they are already nearly touching. Nothing shorter th... | "We are in an age of discovery, we live in the world of the uknown. That's the only place to live." —Lloyd Quarterman(1918-1982)\n\n\nDr. Lloyd Quarterman was one of the African American nuclear scientists involved in the production of the atomic bomb. He worked with two of the most illustrious scientific minds of the ... | eng_Latn | 4,148 |
Blockchained Post-Quantum Signatures | Algorithms for quantum computation: discrete logarithms and factoring | A Real-Time Augmented Reality System to See-Through Cars | eng_Latn | 4,149 |
Quantum aspects of high dimensional formal representation of conceptual spaces | A new three-dimensional model for emotions and monoamine neurotransmitters | Exploiting Tri-Relationship for Fake News Detection. | eng_Latn | 4,150 |
Quantum computation, quantum theory and AI | Elementary Gates for Quantum Computation | Filtering Spam by Using Factors Hyperbolic Trees | yue_Hant | 4,151 |
Quantum Logical Neural Networks | Polynomial-Time Algorithms for Prime Factorization and Discrete Logarithms on a Quantum Computer | Direct Raytracing of Particle-based Fluid Surfaces Using Anisotropic Kernels | yue_Hant | 4,152 |
Quantum computing: a survey | Polynomial-Time Algorithms for Prime Factorization and Discrete Logarithms on a Quantum Computer | A General Architecture of IoT System | eng_Latn | 4,153 |
Demo: WEBee: Physical-Layer Cross-Technology Communication via Emulation | B 2 W 2 : NWay Concurrent Communication for IoT Devices | Foundations of Quantum Programming (Extended Abstract) | eng_Latn | 4,154 |
Q WIRE : A QRAM-Inspired Quantum Circuit Language | A blueprint for building a quantum computer | Answering Complicated Question Intents Expressed in Decomposed Question Sequences | yue_Hant | 4,155 |
Exponential algorithmic speedup by a quantum walk | Quantum Computation and Quantum Information | System for authoring highly interactive, personality-rich interactive characters | eng_Latn | 4,156 |
Feature-Guided Black-Box Safety Testing of Deep Neural Networks | Simple Black-Box Adversarial Perturbations for Deep Networks | Quantum speed-up of Markov chain based algorithms | eng_Latn | 4,157 |
The Internet Dark Matter - on the Missing Links in the AS Connectivity Map | Emergence of scaling in random networks | On-Chip Microwave Quantum Hall Circulator | eng_Latn | 4,158 |
T-splines and T-NURCCs | Non-uniform recursive subdivision surfaces | quantum algorithm for linear systems of equations . | eng_Latn | 4,159 |
Generating entangled photon pairs in a parallel crystal geometry | Quantum Communication Technology | E-Commerce and the Undulating Distribution Channel | eng_Latn | 4,160 |
How far away is the Quantum Internet from becoming a reality? | Quantum Computation: How far away is the Quantum Internet from becoming a reality? | What are your thoughts on "quantum computing"? | eng_Latn | 4,161 |
Quantum cognition goes beyond-quantum: modeling the collective participant in psychological measurements | Quantum Interference and Superposition in Cognition: Development of a Theory for the Disjunction of Concepts | Focused Hierarchical RNNs for Conditional Sequence Processing | eng_Latn | 4,162 |
The Abstract Structure of Quantum Algorithms | Quantum support vector machine for big data classification | efficacy and safety of a decision rule for using antibiotics in children with pneumonia and vaccinated against pneumococcus . a randomized controlled trial . | kor_Hang | 4,163 |
Using Quantum Computers for Quantum Simulation | Simulating quantum computers with probabilistic methods | A Long Reset-Time Power-On Reset Circuit With Brown-Out Detection Capability | kor_Hang | 4,164 |
circuit for shor ' s algorithm using 2n + 3 qubits . | Quantum Computation and Quantum Information | An unusual case of transient neonatal pustular melanosis: a diagnostic puzzle | eng_Latn | 4,165 |
Efficient mapping of quantum circuits to the IBM QX architectures | Polynomial-Time Algorithms for Prime Factorization and Discrete Logarithms on a Quantum Computer | Web-based statistical fact checking of textual documents | eng_Latn | 4,166 |
Quantum-inspired genetic algorithms | a method for obtaining digital signatures and public - key cryptosystems ( reprint ) . | A systematic literature review: Information security culture | eng_Latn | 4,167 |
Uncertain Fate of Fair Sampling in Quantum Annealing | Quantum Annealing and Analog Quantum Computation | Smart wearable systems: Current status and future challenges | eng_Latn | 4,168 |
J-Force: Forced Execution on JavaScript | Cloak and dagger: dynamics of web search cloaking | Overview and Comparison of Gate Level Quantum Software Platforms | eng_Latn | 4,169 |
A quantum particle swarm optimization | Comparison between Genetic Algorithms and Particle Swarm Optimization | Component Software: Beyond Object-Oriented Programming | eng_Latn | 4,170 |
Electronic Energy Transfer | Quantum Computation and Quantum Information | Fault-tolerant quantum computation | eng_Latn | 4,171 |
Boosting Algorithms as Gradient Descent | Bagging Predictors | On quantum algorithms | eng_Latn | 4,172 |
Quantum Programming Languages: An Introductory Overview | Functional Quantum Programming | Computational Capabilities of Graph Neural Networks | yue_Hant | 4,173 |
Quantum aspects of high dimensional formal representation of conceptual spaces | Quantum Interference and Superposition in Cognition: Development of a Theory for the Disjunction of Concepts | HINDI SPEECH RECOGNITION SYSTEM USING HTK | eng_Latn | 4,174 |
Quantum computing: a survey | Quantum Computation and Quantum Information | Unpacking the privacy paradox: Irrational decision-making within the privacy calculus | eng_Latn | 4,175 |
Quantum resistant public key cryptography: a survey | Universal classes of hash functions (Extended Abstract) | Infinitely Many-Armed Bandits with Budget Constraints | eng_Latn | 4,176 |
Fermionic Linear Optics and Matchgates | On the power of quantum computation | Flexible Network Binarization with Layer-Wise Priority | eng_Latn | 4,177 |
Hardware design of an NTT-based polynomial multiplier | Algorithms for quantum computation: discrete logarithms and factoring | Orientation sensitivity to graspable objects: An fMRI adaptation study | eng_Latn | 4,178 |
Synthesis of quantum-logic circuits | quantum mechanics helps in searching for a needle in a haystack . | An improved ant algorithm with LDA-based representation for text document clustering | eng_Latn | 4,179 |
Quantum-enhanced machine learning | Integrated Architectures for Learning, Planning, and Reacting Based on Approximating Dynamic Programming | Compact Pulse Topology for Adjustable High-Voltage Pulse Generation Using an SOS Diode | eng_Latn | 4,180 |
Quantum Communication in Rindler Spacetime | Quantum Computation and Quantum Information | Quantum circuits with mixed states | eng_Latn | 4,181 |
What are your thoughts on "quantum computing"? | What are your thoughts on quantum computing? | Could quantum computers in the future access parallel realities? | eng_Latn | 4,182 |
Topological quantum | the heisenberg representation of quantum computers . | Compiling Little Languages in Python | eng_Latn | 4,183 |
Asymmetric Cryptography for Mobile Devices | Quantum Cryptography | monte carlo methods for portfolio credit risk . | eng_Latn | 4,184 |
Lattice-based Cryptography | Polynomial-Time Algorithms for Prime Factorization and Discrete Logarithms on a Quantum Computer | Transpositions in stator bars of large turbogenerators | eng_Latn | 4,185 |
ScaffCC: a framework for compilation and analysis of quantum computing programs | Quantum Computation and Quantum Information | a noise ‐ aware filter for real ‐ time depth upsampling . | eng_Latn | 4,186 |
A quantum associative memory based on grover’s algorithm | Polynomial-Time Algorithms for Prime Factorization and Discrete Logarithms on a Quantum Computer | Ray Casting of Trimmed NURBS Surfaces on the GPU | eng_Latn | 4,187 |
Detailed shape representation with parallax mapping | A subdivision algorithm for computer display of curved surfaces | Linear optical quantum computing with photonic qubits | eng_Latn | 4,188 |
Building personal maps from gps data | policy recognition in the abstract hidden markov model . | Micromachined Integrated Quantum Circuit Containing a Superconducting Qubit | eng_Latn | 4,189 |
What are the benefits of a quantum computer? | What will be the benefits of quantum computing? | How much will programming change if a quantum computer is introduced? | eng_Latn | 4,190 |
Has anyone built a quantum computer? | Has Anyone Built Their Own Quantum Computer? | How fast is quantum computer? | eng_Latn | 4,191 |
Quantum Computation by Adiabatic Evolution | Strengths and Weaknesses of Quantum Computing | Group value and intention to use - A study of multi-agency disaster management information systems for public safety | kor_Hang | 4,192 |
what is quantum leap | Quantum leaps are the sole cause of the emission of electromagnetic radiation, including light, which occurs in the form of quantized units called photons. Ironically, when laymen use the term colloquially, they use it to describe large jumps in progress, when in reality a quantum leap is a very small change of state. | Quantum Rehab, a Pride Mobility Products Corporation company, designs and manufactures high-end complex rehabilitation solutions that allow end users to achieve their mobility goals. | eng_Latn | 4,193 |
what is quantum entrainment | Quantum Entrainment. What is it? Quantum Entrainment (QE) is a natural technique that produces immediate harmony in body, mind and spirit. With traditional energy healing methods there is always a movement of energy from or through the healer. | Benefits of Quantum Pendant to Human CLICK HERE. What is Scalar Energy? According to the principle of conservation of energy, energy is perpetual but can be transformed. During the process of transformation, part of the energy will be converted into heat in order to maintain its balanced condition. | eng_Latn | 4,194 |
who is schmitty | Schmitty The Weather Dog is a philanthropic pup and celebrity in her own right. After 9/11, Schmitty became the inspiration and model for New Yorkie Greetingss, a line of greeting cards created to raise money for the Uniformed Firefighters Association Scholarship Fund, a fund for fallen firefighter and their families. | Schmitt trigger. © A Dictionary of Computing 2004, originally published by Oxford University Press 2004. Schmitt trigger A discrete or integrated circuit whose output has two stable states, i.e. two sustainable values of output voltage, to which it is driven by the movement of its input voltage past two well-defined t... | eng_Latn | 4,195 |
who is the maker of quantum | The quantum computing technology developed by D-Wave gets ongoing scientific debate, but it's also getting money, $28 million last week, bringing its total funding to about $150 million. This Canadian company was started 15 years ago and is one of the most tenacious and longest-running tech start-ups around. | Quantum physicists discovered that physical atoms are made up of vorticies of energy that are constantly spinning and vibrating. Matter, at itâs tiniest observable level, is energy, and human consciousness is connected to it, human consciousness can influence itâs behavior and even re-structure it. âEverything we... | eng_Latn | 4,196 |
Generalised basis independent relationship between Von Neumann Entropy and Purity of a quantum state | What is the relation between linear purity and von Neumann entropy of a state? | What is the relation between linear purity and von Neumann entropy of a state? | eng_Latn | 4,197 |
Time-evolution operator written through a commutator | Time ordering operator if commutator is $c$-number function | Why there is no operator for time in QM? | eng_Latn | 4,198 |
Undergraduate quantum book treating density operators, mixed states, and entanglement | Quantum information references | A fiber bundle over Euclidean space is trivial. | eng_Latn | 4,199 |
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