Syllabus: Quantum computing - University of Hawaii Physics and
... Topics in current theoretical research; e.g., quantum informational representations of field theories. This course is an introduction to quantum information theory (qubits, quantum gates, and qubit systems). It covers a few selected quantum algorithms, yet the emphasis of the course is on quantum si ...
... Topics in current theoretical research; e.g., quantum informational representations of field theories. This course is an introduction to quantum information theory (qubits, quantum gates, and qubit systems). It covers a few selected quantum algorithms, yet the emphasis of the course is on quantum si ...
Hadamard Gates - UW
... Classical Circuits based upon bits, which are represented with on and off states. These states are usually alternatively represented by 1 and 0 respectively. ...
... Classical Circuits based upon bits, which are represented with on and off states. These states are usually alternatively represented by 1 and 0 respectively. ...
What Has Quantum Mechanics to Do With Factoring?
... The period r is hundreds of digits long. Error in r of 1 in 1010 messes up almost every digit. ...
... The period r is hundreds of digits long. Error in r of 1 in 1010 messes up almost every digit. ...
Slide 1
... • Existing computers (classical) operate on bits, which can hold the value of 0 or 1. • Quantum computers operate on qubits, which can hold the value of 0, 1, or a combination of the two. – Utilizes probability amplitudes, which means they can ...
... • Existing computers (classical) operate on bits, which can hold the value of 0 or 1. • Quantum computers operate on qubits, which can hold the value of 0, 1, or a combination of the two. – Utilizes probability amplitudes, which means they can ...
"Excitation Enhancement of CdSe Quantum Dots by Single Metal
... glovebox) was swiftly injected. The temperature was lowered to 250 °C and the quantum dots were grown at this temperature. Upon reaching the desired size, the solution was removed from heating. All reactions were performed under N2(g) on a Schlenk line. After cooling to <70 °C the quantum dots were ...
... glovebox) was swiftly injected. The temperature was lowered to 250 °C and the quantum dots were grown at this temperature. Upon reaching the desired size, the solution was removed from heating. All reactions were performed under N2(g) on a Schlenk line. After cooling to <70 °C the quantum dots were ...
Quantum Manipulation of Two-Electron Spin States in
... initialized in the singlet ground state by waiting longer than the relaxation time; second, the electrons are brought on microsecond time scales to position A; third, we scan the system with a two-pulse procedure: one microsecond pulse that is varied over the dashed green rectangular region depicted ...
... initialized in the singlet ground state by waiting longer than the relaxation time; second, the electrons are brought on microsecond time scales to position A; third, we scan the system with a two-pulse procedure: one microsecond pulse that is varied over the dashed green rectangular region depicted ...
Interaction between quantum dots and superconducting microwave resonators Tobias Frey
... only to its gate Slide courtesy of Klaus Ensslin ...
... only to its gate Slide courtesy of Klaus Ensslin ...
Simulation of Quantum Gates on a Novel GPU Architecture
... order 2 × 2. Table 1 presents several well-known transformation. As an example, Pauli transformation X = |0ih1| + |1ih0|, does project component |0i over the |1i one, and vice versa, following that its quantum application to a classic state 0 or 1 is equivalent to the logic operator NOT. The general ...
... order 2 × 2. Table 1 presents several well-known transformation. As an example, Pauli transformation X = |0ih1| + |1ih0|, does project component |0i over the |1i one, and vice versa, following that its quantum application to a classic state 0 or 1 is equivalent to the logic operator NOT. The general ...
