Optimal control of coupled spin dynamics: design of NMR pulse sequences by gradient ascent algorithms

Khaneja N; Reiss T; Kehlet C; Schulte-Herbruggen T; Glaser SJ

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Optimal control of coupled spin dynamics: design of NMR pulse sequences by gradient ascent algorithms

机译：耦合自旋动力学的最优控制：通过梯度上升算法设计NMR脉冲序列

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In this paper, we introduce optimal control algorithm for the design of pulse sequences in NMR spectroscopy. This methodology is used for designing pulse sequences that maximize the coherence transfer between coupled spins in a given specified time, minimize the relaxation effects in a given coherence transfer step or minimize the time required to produce a given unitary propagator, as desired. The application of these pulse engineering methods to design pulse sequences that are robust to experimentally important parameter variations, such as chemical shift dispersion or radiofrequency (rf) variations due to imperfections such as rf inhomogeneity is also explained. (C) 2004 Elsevier Inc. All rights reserved.

机译：在本文中，我们介绍了用于NMR光谱中脉冲序列设计的最佳控制算法。该方法学用于设计脉冲序列，以使脉冲序列在给定的指定时间内最大化相干自旋之间的相干转移，在给定的相干转移步骤中最小化弛豫效应，或最小化生产给定的整体传播子所需的时间。还说明了这些脉冲工程方法在设计对实验上重要的参数变化（例如由于偏移（例如rf不均匀性）引起的化学位移分散或射频（rf）变化）具有鲁棒性的脉冲序列中的应用。（C）2004 Elsevier Inc.保留所有权利。

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来源
《Journal of magnetic resonance 》 |2005年第2期| 共10页
作者
Khaneja N; Reiss T; Kehlet C; Schulte-Herbruggen T; Glaser SJ;
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正文语种 eng
中图分类电磁学、电动力学 ;
关键词
pulse design; sequence optimization; time-optimal coherence transfer; relaxation-optimized experiments; time-optimal realization of unitary operators; quantum gates; GRAPE algorithm; optimal control theory; BROAD-BAND EXCITATION; HIGH-RESOLUTION NMR; IN-PHASE COHERENCE; POLARIZATION TRANSFER; SELECTIVE INVERSION; QUANTUM COMPUTATION; COMPOSITE PULSES; HETERONUCLEAR; SPECTROSCOPY; SYSTEMS;

机译：脉冲设计;序列优化;时间最优相干传递;弛豫优化实验;time算子时间最优实现;量子门;GRAPE算法;最优控制理论;宽带激励;高分辨核磁共振;相干相干;极化转移;选择性反演;量子计算;复合脉冲;异核;光谱学;系统;

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1. Optimal control of coupled spin dynamics: design of NMR pulse sequences by gradient ascent algorithms [J] . Khaneja N, Reiss T, Kehlet C, Journal of magnetic resonance . 2005 ,第2期

机译：耦合自旋动力学的最优控制：通过梯度上升算法设计NMR脉冲序列
2. Optimal control design of NMR and dynamic nuclear polarization experiments using monotonically convergent algorithms [J] . Maximov II, Tosner Z, Nielsen NC The Journal of Chemical Physics . 2008 ,第18期

机译：使用单调收敛算法的NMR和动态核极化实验的最优控制设计
3. A smoothing monotonic convergent optimal control algorithm for nuclear magnetic resonance pulse sequence design [J] . Ivan I. Maximov, Julien Salomon, Gabriel Turinici, Journal of Chemical Physics . 2010 ,第8期

机译：核磁共振脉冲序列设计的平滑单调收敛最优控制算法
4. PULSE GRADIENT SPIN ECHO MEASUREMENT OF FLOW DYNAMICS IN A POROUS STRUCTURE: NMR SPECTRAL ANALYSIS OF MOTIONAL CORRELATIONS [C] . JANEZ STEPISNIK, ALES MOHORIC, ANDREJ DUH NATO advanced research workshop on magnetic resonance in colloid and interface science . 2002

机译：多孔结构中流动动力学脉冲梯度自旋回声测量：动机相关性的NMR光谱分析
5. APPLICATIONS OF PULSED NUCLEAR MAGNETIC RESONANCE TO CHEMISTRY: MULTIPLE-PULSE NMR, CROSS POLARIZATION, MAGIC-ANGLE SPINNING AND INSTRUMENTAL DESIGN. [D] . MURPHY, PAUL DUBOIS. 1979

机译：脉冲核磁共振在化学中的应用：多脉冲NMR，交叉极化，磁角旋转和仪器设计。
6. Diffusion of Cholesterol and Its Precursors in Lipid Membranes Studied by 1H Pulsed Field Gradient Magic Angle Spinning NMR [O] . Holger A. Scheidt, Daniel Huster, Klaus Gawrisch 2005

机译：用1H脉冲场梯度魔角自旋NMR研究胆固醇及其前体在脂质膜中的扩散。
7. Optimal Control of Coupled Spin Dynamics: Design of N M R Pulse Sequences by Gradi ent Ascent Algor ithms [O] . Navin K Hanejaa, Timo Reissb, Cindie K Ehletb, 2014

机译：耦合自旋动力学的最优控制：基于梯度上升算法的N m R脉冲序列设计

Optimal control of coupled spin dynamics: design of NMR pulse sequences by gradient ascent algorithms

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