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Superluminal Quantum Models of the Photon and Electron
... Is the transluminal quantum a virtual particle? A virtual particle (introduced in quantum electrodynamics or QED) is not directly detectable because it is beneath the ‘radar range’ of the Heisenberg Uncertainty relations. • Virtual photons exchanged between electric charges causes the charges to at ...
... Is the transluminal quantum a virtual particle? A virtual particle (introduced in quantum electrodynamics or QED) is not directly detectable because it is beneath the ‘radar range’ of the Heisenberg Uncertainty relations. • Virtual photons exchanged between electric charges causes the charges to at ...
Quantum Distinction: Quantum Distinctiones!
... in praxis we always are more “successful” in producing more effective measurements but if not otherwise we could using computer model such series always. What would we gain from such consideration of experiment in physics as series of simple distinctions? We may come to completely new interpretation ...
... in praxis we always are more “successful” in producing more effective measurements but if not otherwise we could using computer model such series always. What would we gain from such consideration of experiment in physics as series of simple distinctions? We may come to completely new interpretation ...
29 INTRODUCTION TO QUANTUM PHYSICS
... began more than two centuries ago, and it was soon recognized that these emission spectra contained huge amounts of information. The type of gas and its temperature, for example, could be determined. We now know that these EM emissions come from electrons transitioning between energy levels in indiv ...
... began more than two centuries ago, and it was soon recognized that these emission spectra contained huge amounts of information. The type of gas and its temperature, for example, could be determined. We now know that these EM emissions come from electrons transitioning between energy levels in indiv ...
powerpoint
... Did you ever wonder how thoughts can affect the physical world? Where is meaning in thoughts? These questions are part of the story how metaphysics and quantum physics are interrelated at a pre-physics or proto-physical level, using primarily information concepts. These complex topics are understand ...
... Did you ever wonder how thoughts can affect the physical world? Where is meaning in thoughts? These questions are part of the story how metaphysics and quantum physics are interrelated at a pre-physics or proto-physical level, using primarily information concepts. These complex topics are understand ...
High Resolution Laser Spectroscopy in Rubidium
... output is null. Noise is by definition not phase dependent so a good amount is filtered out. The signal beam however is in phase with the reference beam and thus allowed through. This greatly improves the resolution of the system. A diagram of the lock-in amplifier can be seen in figure (5). ...
... output is null. Noise is by definition not phase dependent so a good amount is filtered out. The signal beam however is in phase with the reference beam and thus allowed through. This greatly improves the resolution of the system. A diagram of the lock-in amplifier can be seen in figure (5). ...
Superluminal Quantum Models of the Photon and Electron
... P. Catillon et al, A Search for the de Broglie Particle Internal Clock by Means of Electron Channeling, Foundations of Physics (2008) 38: 659–664 • Found experimental evidence for twice the Broglie frequency as an “internal clock” in an electron. The de Broglie frequency is the frequency of a photon ...
... P. Catillon et al, A Search for the de Broglie Particle Internal Clock by Means of Electron Channeling, Foundations of Physics (2008) 38: 659–664 • Found experimental evidence for twice the Broglie frequency as an “internal clock” in an electron. The de Broglie frequency is the frequency of a photon ...
An Introduction to Quantum Control
... We choose ΘK = diag(02×2 , J) in order to implement a degenerate canonical controller, with both classical and quantum degrees of freedom. We write ξ = (ξc , ξq )T , where ξc = (ξ1 , ξ2 )T are classical and ξq = (ξ3 , ξ4 )T are quantum variables. A realization is shown in Figure 7, which consists of ...
... We choose ΘK = diag(02×2 , J) in order to implement a degenerate canonical controller, with both classical and quantum degrees of freedom. We write ξ = (ξc , ξq )T , where ξc = (ξ1 , ξ2 )T are classical and ξq = (ξ3 , ξ4 )T are quantum variables. A realization is shown in Figure 7, which consists of ...
QM Consilience_3_
... These probabilities are also invariant because they are defined solely in terms of the constants α and β. These four probabilities are postulated by the model. They are theoretically entities. Their measurement, or estimation, is determined from the available data in the same way that any theoretica ...
... These probabilities are also invariant because they are defined solely in terms of the constants α and β. These four probabilities are postulated by the model. They are theoretically entities. Their measurement, or estimation, is determined from the available data in the same way that any theoretica ...
"Excitation Enhancement of CdSe Quantum Dots by Single Metal
... nanoparticles of the same type. To do this, we selected an area on the substrate and extracted the total fluorescence enhancement factor at each excitation wavelength for every nanoparticle in the area, as described above and shown in Figure 3. We then calculated an excitation enhancement factor for ...
... nanoparticles of the same type. To do this, we selected an area on the substrate and extracted the total fluorescence enhancement factor at each excitation wavelength for every nanoparticle in the area, as described above and shown in Figure 3. We then calculated an excitation enhancement factor for ...
Quantum Physics Quantum Physics Physics
... Cryptography is the practice and study of hiding information. Modern crypthography intersects the disciplines of mathematics, computer science and electrical engineering. Quantum cryptography describes the use of quantum physics effects. Well-known examples of quantum cryptography are the use of qua ...
... Cryptography is the practice and study of hiding information. Modern crypthography intersects the disciplines of mathematics, computer science and electrical engineering. Quantum cryptography describes the use of quantum physics effects. Well-known examples of quantum cryptography are the use of qua ...
research statement in pdf
... • Entanglement and Thermalization in physical states There are many things to do. First and foremost, we need to implement energy constraints in the ensemble of physical states so to prove that the reduced system is typically a thermal state. This result would somehow complete the program of giving ...
... • Entanglement and Thermalization in physical states There are many things to do. First and foremost, we need to implement energy constraints in the ensemble of physical states so to prove that the reduced system is typically a thermal state. This result would somehow complete the program of giving ...
Research Projects in Photonics
... GaAs/AlGaAs waveguide devices have become promising candidates for these photon sources, because laser diodes can be readily fabricated in this material system. Recently, our group have developed a platform based on AlGaAs Bragg reflection waveguides which shows efficient frequency conversion4. We s ...
... GaAs/AlGaAs waveguide devices have become promising candidates for these photon sources, because laser diodes can be readily fabricated in this material system. Recently, our group have developed a platform based on AlGaAs Bragg reflection waveguides which shows efficient frequency conversion4. We s ...
Quantum and Classical Correlations in Quantum Brownian Motion
... It is the aim of this Letter to revisit the question of the creation of entanglement in quantum Brownian motion with recent powerful methods from quantum information theory [5,6]. Our analysis will be split into two parts. In the first part we will show that surprisingly, quantum Brownian motion doe ...
... It is the aim of this Letter to revisit the question of the creation of entanglement in quantum Brownian motion with recent powerful methods from quantum information theory [5,6]. Our analysis will be split into two parts. In the first part we will show that surprisingly, quantum Brownian motion doe ...
Document
... • Introduction to Quantum Spin systems and spin qubits • Entanglement in spin chains • Detailed analysis to extract Entanglement from the data – Magnetic susceptibility as an Entanglement witness • Variation of Entanglement with Magnetic Field • Quantum Information Sharing through complementary ...
... • Introduction to Quantum Spin systems and spin qubits • Entanglement in spin chains • Detailed analysis to extract Entanglement from the data – Magnetic susceptibility as an Entanglement witness • Variation of Entanglement with Magnetic Field • Quantum Information Sharing through complementary ...
Qubits and quantum computers
... certain computations hundreds of magnitude of order faster than digital computers. This feature, coined “quantum supremacy” by John Preskill, could be manifested by experiments in the near future. ...
... certain computations hundreds of magnitude of order faster than digital computers. This feature, coined “quantum supremacy” by John Preskill, could be manifested by experiments in the near future. ...
OPTICS14399
... Since the early days of quantum mechanics, it has been known that certain quantum states have a mysterious non-local behavior [1]. The phenomenon responsible for these non-local correlations among the subsystems of a composite quantum system is called entanglement [2]. Quantum entanglement, having n ...
... Since the early days of quantum mechanics, it has been known that certain quantum states have a mysterious non-local behavior [1]. The phenomenon responsible for these non-local correlations among the subsystems of a composite quantum system is called entanglement [2]. Quantum entanglement, having n ...