Interaction between quantum dots and superconducting microwave resonators Tobias Frey
... T. Frey, ETH PhD thesis (2013), more details T. Ihn, Oxford University Press (2010) ...
... T. Frey, ETH PhD thesis (2013), more details T. Ihn, Oxford University Press (2010) ...
PSE4_Lecture_Ch43 - Elementary Particles
... The positron is the same as the electron, except for having the opposite charge (and lepton number). We call the positron the antiparticle of the electron. Every type of particle has its own antiparticle, with the same mass and most with the opposite quantum number. A few particles, such as the phot ...
... The positron is the same as the electron, except for having the opposite charge (and lepton number). We call the positron the antiparticle of the electron. Every type of particle has its own antiparticle, with the same mass and most with the opposite quantum number. A few particles, such as the phot ...
Factoring 51 and 85 with 8 qubits
... Given the considerable interest in experimental demonstrations of Shor’s algorithm, it is reasonable to ask what constitutes a ‘‘genuine’’ demonstration of this important algorithm, and whether the cases presented here should be considered as such. In our opinion a genuine implementation should use ...
... Given the considerable interest in experimental demonstrations of Shor’s algorithm, it is reasonable to ask what constitutes a ‘‘genuine’’ demonstration of this important algorithm, and whether the cases presented here should be considered as such. In our opinion a genuine implementation should use ...
Life after Charge Noise: An Introduction to the Transmon Qubit
... Idea of superconducting qubits: Electrical circuits can behave quantum mechanically! What's good about circuits? ...
... Idea of superconducting qubits: Electrical circuits can behave quantum mechanically! What's good about circuits? ...
Microscopic Chaos and Nonequilibrium Statistical Mechanics: From
... [31]. Consequently, the kinetic or relaxation phenomena can only exist as emerging properties in systems with an arbitrarily long Heisenberg time. The fact that the Heisenberg time grows exponentially with the entropy and, thus, with the number N of particles shows that the emerging relaxation proce ...
... [31]. Consequently, the kinetic or relaxation phenomena can only exist as emerging properties in systems with an arbitrarily long Heisenberg time. The fact that the Heisenberg time grows exponentially with the entropy and, thus, with the number N of particles shows that the emerging relaxation proce ...
- Philsci
... any part of classical physics, would be able to issue in physical predictions about actual physical states of affairs entirely independently of measurement. Such a theory would be able to predict and explain macroscopic, quasi-classical phenomena as arising from the quantum field alone, without call ...
... any part of classical physics, would be able to issue in physical predictions about actual physical states of affairs entirely independently of measurement. Such a theory would be able to predict and explain macroscopic, quasi-classical phenomena as arising from the quantum field alone, without call ...
Quantum Mechanics and Split Peas
... We have seen that Bohr was oh-so-close to explaining the true nature of the electron. However, Bohr’s theories were too simplistic for multi-electron systems. It was evident that a new type of thinking would be needed to describe the what’s and where’s of the electron. Luckily, some pretty famous sc ...
... We have seen that Bohr was oh-so-close to explaining the true nature of the electron. However, Bohr’s theories were too simplistic for multi-electron systems. It was evident that a new type of thinking would be needed to describe the what’s and where’s of the electron. Luckily, some pretty famous sc ...
