NMR Quantum Information Processing

Quantum Computation and Quantum Information (QIP) deals with the identification and quantum resources for information processing. The quantum algorithm design, quantum simulation and
quantum communication, including quantum cryptography. Along the past few years, QIP has become one of the most active area of
research in both, theoretical and experimental physics, attracting students and researchers fascinated, not only by the potential
practical applications of quantum computers, but also by the possibility of the fundamental physics at the deepest level of quantum phenomena.
NMR Quantum Computation and Quantum Information Processing the Fundamentals of NMR QIP, and the main development which can lead to a large-scale quantum processor.
The text starts with a general chapter on
the interesting topic of the physics of computation. The very first ideas. In Chapter 2 it is made an introduction to NMR, including the hardware and other experimental aspects of the technique. in
Chapter 3 we revise the foundations of Quantum Computation and Quantum Information. Michael A. Nielsen and Isaac L. Chuang, with
an upgrade in phase space, and telecloning. Chapter 4 representing how NMR
generates quantum logic gates from radiofrequency pulses, upon which quantum protocols are built. It is also an important technique for Quantum State. Tomography for both, quadrupole and spin
1/2 nuclei. Chapter 5 numerology of quantum simulation and QIP in phase space. The important issue of entanglement in NMR QIP
experiments is discussed in Chapter 6. This is a very interesting topic. The chapter contains a discussion
on the theoretical aspects of NMR entanglement, as well as the phenomenon is reported. Finally, Chapter 7 is an attempt to address the future of NMR QIP, based in
very recent developments in nanofabrication and single-spin detection experiments. Each chapter is followed by problems and solutions.

* Presents a large number of problems with solutions, ideal for students
* Brings together topics in different areas: NMR, nanotechnology, quantum computation
* Extensive references

1. Physics, information and computation
2. Nuclear Magnetic Resonance: basics
3. Fundamentals of quantum computation and quantum information
4. Introduction to NMR quantum computing
5. Implementation of quantum algorithms by NMR
6. Entanglement in liquid-state NMR
7. Perspectives for NMR quantum computation and quantum information