Chapter 3 QUANTUM MONTE CARLO SIMULATION
... have to point out that more rigorous scattering mechanisms are studied within the Wigner framework, but their numerical complexity make its application to real devices quite complicated [Brunetti 1996]. At this point, one realises that there are several possible ways to introduce scattering into our ...
... have to point out that more rigorous scattering mechanisms are studied within the Wigner framework, but their numerical complexity make its application to real devices quite complicated [Brunetti 1996]. At this point, one realises that there are several possible ways to introduce scattering into our ...
Synthesizing arbitrary quantum states in a superconducting resonator
... the fixed interaction strength V/2p 5 19 MHz, while the second and third terms give the effect of the external microwave drive signals applied to the qubit and resonator; these parameters Vq(t) and Vr(t) are complex to account for amplitude and phase. All control signals in equation (1) vary on a ,2 ...
... the fixed interaction strength V/2p 5 19 MHz, while the second and third terms give the effect of the external microwave drive signals applied to the qubit and resonator; these parameters Vq(t) and Vr(t) are complex to account for amplitude and phase. All control signals in equation (1) vary on a ,2 ...
Development of a Silicon Semiconductor Quantum Dot Qubit with
... Schematic showing the coupling of the double quantum dot and an electrical resonator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Top: Schematic diagram showing the quantum dot capacitively coupled to the microwave resonator (green, shown as a lumped element LC circuit), ...
... Schematic showing the coupling of the double quantum dot and an electrical resonator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Top: Schematic diagram showing the quantum dot capacitively coupled to the microwave resonator (green, shown as a lumped element LC circuit), ...
electron transport in quantum dots. - Leo Kouwenhoven
... have proven to be useful systems to study a wide range of physical phenomena. We discuss here in separate sections the physics of artificial atoms, coupled quantum systems, quantum chaos, the quantum Hall effect, and time-dependent quantum mechanics as they are manifested in quantum dots. In recent ...
... have proven to be useful systems to study a wide range of physical phenomena. We discuss here in separate sections the physics of artificial atoms, coupled quantum systems, quantum chaos, the quantum Hall effect, and time-dependent quantum mechanics as they are manifested in quantum dots. In recent ...
On the Dynamics of Single-Electron Tunneling in Semiconductor
... on classical diffusive electron transport. Higher operation speed requires a further reduction of the device dimensions and a much smaller power dissipation. This will eventually lead to a break-down of the classical approach when the device dimension will be comparable to the Fermi wavelength and h ...
... on classical diffusive electron transport. Higher operation speed requires a further reduction of the device dimensions and a much smaller power dissipation. This will eventually lead to a break-down of the classical approach when the device dimension will be comparable to the Fermi wavelength and h ...
Quantum Orders and Symmetric Spin Liquids
... in the sense that a quantum Hall liquid cannot be compressed. Thus a quantum Hall liquid has a fixed and welldefined density. When we measure the electron density in terms of filling factor ν, we found that all discovered quantum Hall states have such densities that the filling factors are exactly g ...
... in the sense that a quantum Hall liquid cannot be compressed. Thus a quantum Hall liquid has a fixed and welldefined density. When we measure the electron density in terms of filling factor ν, we found that all discovered quantum Hall states have such densities that the filling factors are exactly g ...
∗ ∗
... thing about this subject is that it touches upon a number of different disciplines: physics, mathematics, and philosophy. Initially, I started to look upon the subject as a physicist, but gradually the discussion turned more and more philosophical. Therefore, let me start by pointing out what I mean ...
... thing about this subject is that it touches upon a number of different disciplines: physics, mathematics, and philosophy. Initially, I started to look upon the subject as a physicist, but gradually the discussion turned more and more philosophical. Therefore, let me start by pointing out what I mean ...
Semiconductor Physics Sectional Programme Overview
... sensitivity of our technique (photoelectron escape depth 0.5 nm) yields information essentially on the composition of the growth front. Our data clearly demonstrate that the surface composition of the dots is neither pure InAs nor homogeneous Inx Ga1−x As, but we observe an In concentration gradient ...
... sensitivity of our technique (photoelectron escape depth 0.5 nm) yields information essentially on the composition of the growth front. Our data clearly demonstrate that the surface composition of the dots is neither pure InAs nor homogeneous Inx Ga1−x As, but we observe an In concentration gradient ...
Single photons from single ions: quantum interference and distant ion interaction Dissertation
... values simultaneously with one quantum circuit. Including quantum interference in the computation, quantum parallelism allows for the evaluation of a function to be balanced or constant in exponentially reduced time than a classical deterministic computer [7, 10]. Besides the single- and multi-qubit ...
... values simultaneously with one quantum circuit. Including quantum interference in the computation, quantum parallelism allows for the evaluation of a function to be balanced or constant in exponentially reduced time than a classical deterministic computer [7, 10]. Besides the single- and multi-qubit ...