磁共振成像:物理原理及序列设计 Magnetic Resonance Imaging: Physical Principles and Sequence Design by E. Mark Haacke, Robert W. Brown
分類: 图书,进口原版书,医学 Medicine ,
作者: E. Mark Haacke,Robert W. Brown,Michael R.Thompson,Ramesh Venkatesan 著
出 版 社: 吉林长白山
出版时间: 1999-6-1字数:版次: 1页数: 914印刷时间:开本: 16开印次: 1纸张:I S B N : 9780471351283包装: 精装内容简介
"As a one-stop shop for basic MR physics and pulse sequences it is close to perfect." -- Neuroradiology, Vol 24/9, 2000
"I would recommend it to any MR scientist as an excellent reference book & as required reading for those beginning research studies in MRI physics..."(Neuro-Radiology, Vol 42/9, 2000)
"As a one-stop shop for basic MR physics and pulse sequences it is close to perfect." (Neuroradiology, Vol 24/9, 2000)
目录
1 Magnetic Resonance Imaging:A Preview
2 Classical Response of a Single Nucleus to a Magnetic Field
3 Rotating Reference frames and Resonance
4 Magnetization, Relaxation and the Bloch Equation
5 The Quantum mechanical Basis of Precession and Excitation
6 The Quantum mechanical Basis of Thermal Equilibrium and Longitudinal
7 Si8gnal Detection Concepts
8 Introductory Signal Acquisition Methods: Free Induction Decsy, Spin Echoes, Inversion Recovery and Spectroscopy
9 One-Dimensional Fourier Imaging, k-Space and Gradient Echoes
11 The Continuous and discrete Fourier Transforms
12 Sampling and aliasing in Image Reconstruction
13 filtering and Resolution in fourier Transform Image Reconstruction
14 Projection Reconstreuction of Images
15 Signal, Contrast and Noise
16 A Closer Look at Radiofrequency Pulses
17 Water/Fat Separation Techniques
18 Fast Imaging in the steady State
19 Segmented k-Space and Echo Echo Planar Imaging
20 Magnetic Field Inhomgeneity Effects and T2 Dephasing
21 Random Walks, Relaxation and diffusion
22 Spin Density, T1 and T2 Quantification Methods in MR Imaging
23 Motion Artifacts and Flow Compensation
24 MR Angiography and Flow Quantification
25 Magnetic Properties of Tissues: Theory and Measurement
26 Sepuence Design, Artifacts and Nomenclature
27 Introduction to MRI Coils and Magnets
A Electromagnetic Principles: A Brief Overview
B Statistics
C Imaging Parameters to Accompany Figures
Index