Slide 1
... The (seeming) impossibility of the first two machines reflects fundamental principles of physics—Special Relativity and the Second Law respectively So what about the third one? ...
... The (seeming) impossibility of the first two machines reflects fundamental principles of physics—Special Relativity and the Second Law respectively So what about the third one? ...
Atomic Spectroscopy and the Correspondence Principle
... On the basis of Rutherfordʹs nuclear model of the atom, Bohr envisioned the hydrogen atomʹs electron executing circular orbits around the proton with quantized angular momentum. This gave rise to a manifold of allowed electron orbits with discrete (as opposed to continuous) radii and energies. By f ...
... On the basis of Rutherfordʹs nuclear model of the atom, Bohr envisioned the hydrogen atomʹs electron executing circular orbits around the proton with quantized angular momentum. This gave rise to a manifold of allowed electron orbits with discrete (as opposed to continuous) radii and energies. By f ...
Quantum physics I
... Werner Heisenberg: “What we learn about is not nature itself, but nature exposed to our method of questioning.” Lao Tsu: “Ever desireless, one can see the mystery. Ever desiring, one sees the manifestations.” Blaise Pascal: “The endpoint of rationality is to demonstrate the limits of rationality.” K ...
... Werner Heisenberg: “What we learn about is not nature itself, but nature exposed to our method of questioning.” Lao Tsu: “Ever desireless, one can see the mystery. Ever desiring, one sees the manifestations.” Blaise Pascal: “The endpoint of rationality is to demonstrate the limits of rationality.” K ...
Detection of entanglement and of features of quantum evolution with
... We will give an overview of several recent results concerning the detection of properties of composite states and of quantum evolutions by employing measurements of complementary properties. Two properties of a quantum systems are called complementary if they are such that, if one knows the value of ...
... We will give an overview of several recent results concerning the detection of properties of composite states and of quantum evolutions by employing measurements of complementary properties. Two properties of a quantum systems are called complementary if they are such that, if one knows the value of ...
Slides - Professor Laura Ruetsche
... Does it follow that we don’t understand QM∞ ? On the contrary! Noticing the failure — noticing that equipping a theory of QM∞ with constitutive CCRs leaves open a host of interpretive questions, questions which can be and in practice are answered in different ways in different contexts of aim and ap ...
... Does it follow that we don’t understand QM∞ ? On the contrary! Noticing the failure — noticing that equipping a theory of QM∞ with constitutive CCRs leaves open a host of interpretive questions, questions which can be and in practice are answered in different ways in different contexts of aim and ap ...
The Future of Computer Science
... If you throw away the problem structure, and just consider an abstract “landscape” of 2n possible solutions, then even a quantum computer needs ~2n/2 steps to find the correct one (That bound is actually achievable, using Grover’s algorithm!) ...
... If you throw away the problem structure, and just consider an abstract “landscape” of 2n possible solutions, then even a quantum computer needs ~2n/2 steps to find the correct one (That bound is actually achievable, using Grover’s algorithm!) ...
Quantum simulators of lattice gauge theories
... L. Mazza, P. Nikolić, A. Trombettoni, C. Morais Smith, J. Pachos, U. Wiese, D. Bercieux, Y. Meurice, E. Solano, L. Lamata, J.J. GarcíaRipoll, J.-I. Latorre, O. Boada and many others… (th.) ...
... L. Mazza, P. Nikolić, A. Trombettoni, C. Morais Smith, J. Pachos, U. Wiese, D. Bercieux, Y. Meurice, E. Solano, L. Lamata, J.J. GarcíaRipoll, J.-I. Latorre, O. Boada and many others… (th.) ...
Black-body Radiation & the Quantum Hypothesis
... in any arbitrary amounts, but only in discrete “quantum” amounts. The energy of a “quantum” depends on frequency as ...
... in any arbitrary amounts, but only in discrete “quantum” amounts. The energy of a “quantum” depends on frequency as ...
