ANTI-MATTER FROM PRIMORDIAL BLACK HOLES
... could it be different in the specific quantum theory of Riemannian geometry called LQG? KEY questions: How close to the BB does smooth space-time make sense ? Is inflation safe ? Is the BB singularity solved as the hydrogen atom in electrodynamics (Heinsenberg)? Is a new principle/boundary conditi ...
... could it be different in the specific quantum theory of Riemannian geometry called LQG? KEY questions: How close to the BB does smooth space-time make sense ? Is inflation safe ? Is the BB singularity solved as the hydrogen atom in electrodynamics (Heinsenberg)? Is a new principle/boundary conditi ...
3 - Sezione di Fisica
... whereas the wave function is spread out in space (it's a function of x, for any given time t). How can such an object be said to describe the state of a particle? • Born's statistical interpretation: ...
... whereas the wave function is spread out in space (it's a function of x, for any given time t). How can such an object be said to describe the state of a particle? • Born's statistical interpretation: ...
The Quantum Free Electron Laser
... We know from classical FEL physics (see e.g. K-J Kim lectures) that the FEL process induces an energy/momentum spread in the electron beam [3,4]. This can be visualised as electrons moving along continuous trajectories ...
... We know from classical FEL physics (see e.g. K-J Kim lectures) that the FEL process induces an energy/momentum spread in the electron beam [3,4]. This can be visualised as electrons moving along continuous trajectories ...
PPT
... slit the particle went through. We can only state the probability that a particle would have gone through a particular slit, if it had been measured. Confused? You aren’t alone! We do not know how to understand quantum behavior in terms of our everyday experience. Nevertheless - as we will see in th ...
... slit the particle went through. We can only state the probability that a particle would have gone through a particular slit, if it had been measured. Confused? You aren’t alone! We do not know how to understand quantum behavior in terms of our everyday experience. Nevertheless - as we will see in th ...
Phys.Rev.Lett. 84, 1
... The experiment is designed in such a way that L0 , the optical distance between atoms A, B and detector D0 , is much shorter than LA (LB ), the optical distance between atoms A, B and the beam splitter BSA (BSB) where the which-path or both-path “choice” is made randomly by photon 2. Thus after D0 i ...
... The experiment is designed in such a way that L0 , the optical distance between atoms A, B and detector D0 , is much shorter than LA (LB ), the optical distance between atoms A, B and the beam splitter BSA (BSB) where the which-path or both-path “choice” is made randomly by photon 2. Thus after D0 i ...
Commun. Math. Phys. 227, 605 (2002).
... representation has topological implications which will be considered elsewhere. ...
... representation has topological implications which will be considered elsewhere. ...
Four-photon orbital angular momentum entanglement
... in several degrees of freedom and exhibit quantum entanglement. Apart from the well-known polarization degrees, the photons can also be correlated in their spatial degrees; this manifests itself in continuous wavevector or (the Fourier-related) position entanglement.19 We can also explore the spatia ...
... in several degrees of freedom and exhibit quantum entanglement. Apart from the well-known polarization degrees, the photons can also be correlated in their spatial degrees; this manifests itself in continuous wavevector or (the Fourier-related) position entanglement.19 We can also explore the spatia ...
Electronic Structure of Strained GaSb/GaAs Quantum Dot
... mass model). Therefore it is interesting to carry out the detailed calculations using a more accurate method, in particular in the view of the new experiments. The aim of this work is to study the electronic properties of GaSb/GaAs self-assembled quantum dots (SAD) by using the sp3s* empirical tight ...
... mass model). Therefore it is interesting to carry out the detailed calculations using a more accurate method, in particular in the view of the new experiments. The aim of this work is to study the electronic properties of GaSb/GaAs self-assembled quantum dots (SAD) by using the sp3s* empirical tight ...
Vacuum-Entanglement
... (II) Are Bells' inequalities violated? Yes, for arbitrary separation. (Filtration, “hidden” non-locality). (III) Where does it “come from”? Localization, shielding. (Harmonic Chain). ...
... (II) Are Bells' inequalities violated? Yes, for arbitrary separation. (Filtration, “hidden” non-locality). (III) Where does it “come from”? Localization, shielding. (Harmonic Chain). ...
Lecture 4 Density instead of the wavefunction CHEM6085: Density
... • This is the simplest way to do DFT calculations (often called “pure DFT”) • We will examine it, with examples, in the next lecture ...
... • This is the simplest way to do DFT calculations (often called “pure DFT”) • We will examine it, with examples, in the next lecture ...
PDF
... The sum-rate upper bound in Eq. (13) coincides with the coherent-state MAC result appearing in (8), which is achievable. Hence we have shown that the sum rate for the capacity is achieved by coherent-state encoding in conjunction with optimum (joint-measurement) reception. Moreover, from (10) it can ...
... The sum-rate upper bound in Eq. (13) coincides with the coherent-state MAC result appearing in (8), which is achievable. Hence we have shown that the sum rate for the capacity is achieved by coherent-state encoding in conjunction with optimum (joint-measurement) reception. Moreover, from (10) it can ...
View the full paper here
... understood in so many different ways, will continue to be referred to in many instances where other qualifiers, such as “complication,” would be more appropriate. As complicated as some computational processes might be, they nevertheless seem to be decidable because the complicated has only degrees, ...
... understood in so many different ways, will continue to be referred to in many instances where other qualifiers, such as “complication,” would be more appropriate. As complicated as some computational processes might be, they nevertheless seem to be decidable because the complicated has only degrees, ...
Lecture 1.6 PowerPoint
... • 1.6 – I can characterize an electron based on its 4 quantum numbers (n, l, ml, and ms). I can explain what each of these numbers indicate and discuss the importance of these numbers. • 1.7 – I can describe the shape, number, and energy level of the s, p, d, and f orbitals. Furthermore, I can draw ...
... • 1.6 – I can characterize an electron based on its 4 quantum numbers (n, l, ml, and ms). I can explain what each of these numbers indicate and discuss the importance of these numbers. • 1.7 – I can describe the shape, number, and energy level of the s, p, d, and f orbitals. Furthermore, I can draw ...
A Quantum Structure Description of the Liar Paradox
... behaviour can be found in very different layers of reality. The success of these theories demonstrates that interesting conclusions about the nature of reality can be inferred from the encountered structural similarities of dynamical behaviour in different regions of reality. Chaos and complexity th ...
... behaviour can be found in very different layers of reality. The success of these theories demonstrates that interesting conclusions about the nature of reality can be inferred from the encountered structural similarities of dynamical behaviour in different regions of reality. Chaos and complexity th ...
exploiting the superposition principle foundations and applications
... source, beam spli=ng and detec@on ...
... source, beam spli=ng and detec@on ...