A method for creating pseudopure states in NMR is described that combines spatial averaging and logical labeling techniques. This method uses one labeling qubit and any desired pseudopure state of any number of qubits can be created in the subsystem manifolds of the labeling qubit. The method uses a nonselective π/2 radio frequency pulse on all the nonlabeling qubits to equalize the populations of all the states within each subsystem, followed by a single transition-selective π pulse on one of the transitions of the labeling qubit. The transverse magnetization created during the process is destroyed by a magnetic field gradient pulse, yielding a subsystem pseudopure state. The method is demonstrated experimentally on a system of three qubit...
This article reviews recent work done by us an some initial steps towards the implementation of quan...
An algorithm based on quantum phase estimation, which discriminates quantum states non-destructively...
After a general introduction to nuclear magnetic resonance (NMR), we give the basics of implementing...
A method for creating pseudopure states in NMR is described that combines spatial averaging and logi...
Quantum-information processing is carried out using dipolar coupled spins and high-resolution nuclea...
This thesis focuses on two aspects of Quantum Information Processing (QIP) and contains experimental...
We demonstrate experimentally the usefulness of selective pulses in NMR to perform quantum computati...
Optimal labeling schemes lead to efficient experimental protocols for quantum-information processing...
Theoretical Quantum Information Processing (QIP) has matured from the use of qubits to the use of qu...
In bulk quantum computation one can manipulate a large number of indistinguishable quantum computers...
We discuss the applications of Nuclear Magnetic Resonance (NMR) to quantum information processing, f...
The progess in NMRQIP can be outlined in to four parts.1) Implementation of theoretical protocols on...
The enormous theoretical potential of quantum information processing (QIP) is driving the pursuit f...
Nuclear magnetic resonance spectroscopy has demonstrated significant experimental progress toward th...
Quantum-information processing is carried out using dipolar coupled spins and high-resolution nuclea...
This article reviews recent work done by us an some initial steps towards the implementation of quan...
An algorithm based on quantum phase estimation, which discriminates quantum states non-destructively...
After a general introduction to nuclear magnetic resonance (NMR), we give the basics of implementing...
A method for creating pseudopure states in NMR is described that combines spatial averaging and logi...
Quantum-information processing is carried out using dipolar coupled spins and high-resolution nuclea...
This thesis focuses on two aspects of Quantum Information Processing (QIP) and contains experimental...
We demonstrate experimentally the usefulness of selective pulses in NMR to perform quantum computati...
Optimal labeling schemes lead to efficient experimental protocols for quantum-information processing...
Theoretical Quantum Information Processing (QIP) has matured from the use of qubits to the use of qu...
In bulk quantum computation one can manipulate a large number of indistinguishable quantum computers...
We discuss the applications of Nuclear Magnetic Resonance (NMR) to quantum information processing, f...
The progess in NMRQIP can be outlined in to four parts.1) Implementation of theoretical protocols on...
The enormous theoretical potential of quantum information processing (QIP) is driving the pursuit f...
Nuclear magnetic resonance spectroscopy has demonstrated significant experimental progress toward th...
Quantum-information processing is carried out using dipolar coupled spins and high-resolution nuclea...
This article reviews recent work done by us an some initial steps towards the implementation of quan...
An algorithm based on quantum phase estimation, which discriminates quantum states non-destructively...
After a general introduction to nuclear magnetic resonance (NMR), we give the basics of implementing...