, ?+ \) T" Y2 k! y h
: b$ G2 E9 o7 F" T$ y
|
- p, F. {- C% J2 s5 y APT |
0 L* Z5 u( Z7 Z6 U$ K) G0 G5 ^; \6 ~- V* q1 H R
Attached Proton Test 质子连接实验 |
3 J; j% ?( m' {# Y) F! P' y
" B% Q' {( Y: z+ u& B1 J, J|
5 O6 _" e& A( R) M8 y# ^ ASIS | 5 ~- T7 o# p! T$ l* S8 ?
) g$ v, x( y6 |4 M0 k+ g# J+ c9 K
Aromatic Solvent Induced Shift 芳香溶剂诱导位移 |
8 u$ `. B7 |7 t
# i4 F3 T$ o5 J5 f7 @
|
$ U- L# P. A9 k: L' @ BBDR |
8 W6 |# W- ^) X# G
" |( W$ l. z* m: T Broad Band Double Resonance 宽带双共振 |
_" o5 n; D1 W2 t6 P6 C0 X
( I5 f" F7 z! { |
|
* l7 P3 P; R3 m9 h3 }* {* U: o BIRD |
: }% D' v0 z$ Q/ i* B5 T
$ r* |( y: u# x' w" v9 | Bilinear Rotation Decoupling 双线性旋转去偶(脉冲) |
4 B( y* N1 _" k+ v, G) K/ t$ [( h7 H1 Q2 }# b V7 r- V
| # d' V3 @ E* M) \1 q, K
COLOC | % o) } j0 E2 Y* b
7 W7 g2 ~. l5 \ D% F5 q
Correlated Spectroscopy for Long Range Coupling 远程偶合相关谱 |
, ]3 Q- h) f' U* q
) J6 N$ X( C F$ D/ K
|
- P8 H& Q, p0 z) x COSY | 4 q, `5 n8 u2 {8 h, C0 C
/ g+ y3 H6 k* T& w: k ( Homonuclear chemical shift ) COrrelation SpectroscopY (同核化学位移)相关谱 |
' O2 O2 M8 @+ [4 U9 r) W$ _3 k* L
& i: _, G$ @1 K9 }0 i
| . k* v3 U/ W4 y2 f
CP |
6 |6 \. y5 x3 [8 Q/ g9 [- K
" z' z6 e% H& w: v: q* {9 B& ] Cross Polarization 交叉极化 |
# |+ z4 ~8 Z& x) G. q
' ^8 B/ }& Q1 ^( X: c$ X6 D) L2 L) ]
| ) I' Y6 Z3 p* ^! |
CP/MAS | 2 ?% U- N% ^: p5 w
" H% C& N( A) p
Cross Polarization / Magic Angle Spinning 交叉极化魔角自旋 |
8 J, f' H! ~) ?: ^9 H$ z, T0 u+ {" i8 b& b. t& r
|
( O) J" _" {& H7 K2 N# e+ O+ @ CSA |
8 O! m$ U. j# o9 Y6 E0 x7 E4 l9 t7 l% d
Chemical Shift Anisotropy 化学位移各向异性 |
/ h$ ?8 Y& Q5 V# Y" f
* h% A" Q p! j/ S
| 9 g1 K# v \2 p+ G# `" I# W
CSCM | 6 J6 U; Z" j7 `$ i; d
9 H I Z6 H! r, N( }; c# v Chemical Shift Correlation Map 化学位移相关图 |
6 s$ p* N' ?5 `2 B" A9 d- R
: h2 Z8 F7 V) r( u8 L# J|
- k# D- n* x& A6 h/ u CW | " H# i5 E5 v, ]9 X- t
6 j; n; X/ f- `. w& I
continuous wave 连续波 |
2 N! @! L( c, x1 Q. M1 e; u
& C2 \1 T! f+ C+ U/ m|
2 K' ]! A8 N3 h: T q DD |
5 f: u7 R# q" B$ P: }
' @: O5 P* a7 X6 l Dipole-Dipole 偶极-偶极 |
c, N2 {) m" I
- Y! k5 d) ^+ X7 R|
) O/ y& ? {: n) r$ h! n0 b1 ^ DECSY | * W8 g' u" B5 e0 H7 o5 v+ a q
* r- C: f( A/ S$ [( q& ^6 v w Double-quantum Echo Correlated Spectroscopy 双量子回波相关谱 |
D- T7 U0 E. k4 x b
0 c1 L' U# f; Y" d i$ H| " M: l+ l1 b, m/ N+ Q% n
DEPT | ) i9 D h; l: c/ }! J c2 E5 G
3 Z3 {0 k" @" o0 e2 u+ b Distortionless Enhancement by Polarization Transfer 无畸变极化转移增强 |
2 u& c# X/ z2 n! R6 S; c8 S4 M) n
) f T2 F: u2 O( a|
3 ?: N( v1 I5 b& U$ S 2DFTS |
' B, l$ ~5 D; w7 }/ O: B5 _& ?+ k: _2 d- q) F
two Dimensional FT Spectroscopy 二维傅立叶变换谱 |
+ G$ ?) `8 M5 V$ Z& ]
* c& O) J/ U: t8 `" B$ M
|
" ?3 y3 F# I7 O z' p( `* x7 H DNMR | $ L: S2 Z2 x" |; q
3 T# f# I/ J$ X/ o1 K) a/ G Dynamic NMR 动态NMR |
( r2 u0 a3 L1 i( R2 [4 Y- |" n8 U! D% n1 l
|
( T8 z8 g+ H6 q' K7 T3 f7 n DNP |
1 H7 n! o' X) g) t) s
' j, q3 d) _7 L+ g' M1 {# K/ I! ? Dynamic Nuclear Polarization 动态核极化 |
) R& D! X( r9 S3 m* [9 D2 L; G* m: t d% m) Z; [. B
| 7 H* ^: c! [/ }6 q
DQ(C) |
4 l9 H9 t' ?" \' ?- ^4 Z5 v9 K. p6 R) o9 t
Double Quantum (Coherence) 双量子(相干) |
& N9 h4 h/ A! z% i5 v( ~8 M; C, i w! J0 ]7 v c
|
5 l1 \ @$ z( A# V: ` DQD | ( i( k% e% j& S8 Y$ K. t& y
3 }# H% N0 g+ p% q) i4 g
Digital Quadrature Detection 数字正交检测 |
' Y+ F8 {9 L8 O% M
m8 C& ?8 \4 T: G/ l4 f8 D! [ A
|
6 j* c& G. [- y$ y% F4 T% e DQF |
5 v" i4 D3 n- n, u' n3 Q1 C' {
. Z4 b: @, [% Q4 d3 f Double Quantum Filter 双量子滤波 |
4 s& | `/ E, ]: S
; w& C) C) ?: h' I8 ]' x( Q# d
| $ m+ h/ c; q4 f4 s1 P
DQF-COSY |
, U4 T+ ^5 w$ m) b7 @+ U, ]
, e# o `5 h$ O4 w( } Double Quantum Filtered COSY 双量子滤波COSY |
4 U" }! J$ f2 G: ?/ n$ l0 v$ N0 o# M5 V2 m. K H+ l! b
| ( c% w$ s' }6 J, _) L1 g+ i. B
DRDS |
6 A, [4 A; Y6 C* q2 g! B% a5 M) N, t
Double Resonance Difference Spectroscopy 双共振差谱 |
& R2 D" o$ ^2 W7 H) m, S+ v$ ~3 X9 Q
+ Z* N: [6 V) U
|
7 I1 R7 K) g5 |3 j. s! b EXSY |
: E: `0 h1 \) U. n! M' U
% ?4 _7 [: d, e& m3 k/ r Exchange Spectroscopy 交换谱 |
8 z% ]1 g2 Q: R1 Y1 c6 L
# q; A" J7 {, [6 i+ Y) p
|
- G- W& M A$ u; U: o5 C U1 | FFT | 3 G) `4 w/ I2 c8 }$ u- p
' C0 A# O) e+ r" x$ `* Z
Fast Fourier Transformation 快速傅立叶变换 |
( Z2 M1 X5 W! J! e; ^9 K
0 L: B9 m: N5 g7 X) ]' t1 N# }|
1 T6 A. h/ e; ?9 a5 s0 ^ FID |
5 [% a% i& f0 f5 Y, f7 H1 g" Y- i' U$ `. P$ e6 w
Free Induction Decay 自由诱导衰减 |
( ~1 [2 d/ }; P: Y& e% B8 g) G$ x, t1 a: q9 d2 m0 ^
| ; ?8 f. }5 M! q
H,C-COSY | 7 q5 l* Z& C6 K+ W$ @
8 L) K. |' ?1 H
1H,13C chemical-shift COrrelation SpectroscopY 1H,13C化学位移相关谱 |
4 f3 Q9 [$ p* z/ \( u2 E6 E' j+ P( H8 D3 k2 i: d2 Z( P
| & ]7 a3 Z, h7 ^- v
H,X-COSY |
" W' I3 O3 I# t4 x& { r# m% y6 H0 s: N: y+ p
1H,X-nucleus chemical-shift COrrelation SpectroscopY 1H,X-核化学位移相关谱 |
- S( h0 n: c) u/ F+ [# I8 I5 b( E6 m1 O: b& r8 u# v, k5 z; _
|
5 ]% d. U0 i1 O+ V! u$ ]0 e2 i HETCOR | % R0 o0 [8 h; j I# W3 q
' Q4 O" K* h) C" |
Heteronuclear Correlation Spectroscopy 异核相关谱 |
4 z9 Q9 F4 `& M1 |2 R+ i5 {9 Q! ~3 f" {9 b. C# ]) Z. J9 S3 @" X8 j
| k3 g) @8 a( e, A1 u' G
HMBC | 3 q, Y5 L. U+ l+ R
" _' |$ u& I% }5 D4 a3 R2 I
Heteronuclear Multiple-Bond Correlation 异核多键相关 |
7 g4 Y; Z, N+ m
8 n( O N+ L7 D# j3 ~, Q| 9 b6 u9 n" | z2 ^9 ]8 O( Z3 T
HMQC |
" a& }4 F; G. b) o$ i
: e2 Y: L ?6 N) f Heteronuclear Multiple Quantum Coherence异核多量子相干 |
6 K3 N Q& J0 i E( N$ k
3 N- R) S$ v X1 M! j0 ?1 g
|
F, V" x5 }# Y9 c) g, j4 @, k HOESY | % c! M f; |3 o1 o2 n% U
6 D5 X9 w/ j) W* H9 A0 Z% X9 T Heteronuclear Overhauser Effect Spectroscopy 异核Overhause效应谱 |
. Y1 m/ e- f( \6 x( |* A. r* A. q
|
% r% [( p: o! @0 o4 h0 a- v HOHAHA | 6 S- V+ d" K, O$ p
7 Z' q% V4 `; P1 W: f# u9 G
Homonuclear Hartmann-Hahn spectroscopy 同核Hartmann-Hahn谱 |
" B8 \- Z' u$ I4 L
4 t7 D, P9 P: z|
9 i% W6 D2 E5 g" u8 {; C& v HR | 1 k% M6 V* A6 e0 s' n$ T! Q8 }
& T3 [2 l! |! d3 ], _- U
High Resolution 高分辨 |
$ P* K9 u: o5 x" r( a
4 n; r6 b# G6 {3 c0 C& || 7 ` r, \) l% I4 U8 ]) |
HSQC |
) d/ ~' {( W2 W! p! K9 P. L. Z& V
( C5 B( b0 {1 g6 U+ ^) g* h$ g0 y/ Q$ w8 j
* u% o3 K8 \$ j$ E |$ U
* f0 L g3 z% M
9 N$ Y6 T0 b) e9 `- q$ i
|
4 y& w/ {) w# b4 e- V2 a |
. E& o5 S' ^0 |9 g+ V- qHeteronuclear Single Quantum Coherence 异核单量子相干 |
( s" R* P+ C+ N# P* u% R, v- e
: C2 P0 A5 u# Y& Y| : B, X7 b# }6 D
INADEQUATE |
$ r" S0 g2 O9 V. |# ]0 t1 R& K# r
" C; Y6 h9 Q% _& ^ Incredible Natural Abundance Double Quantum Transfer Experiment 稀核双量子转移实验(简称双量子实验,或双量子谱) |
# c* P) \" W+ a6 V4 b$ R
6 s% Q$ Q2 x: B4 N$ W8 f6 b0 w| 4 w! f3 }1 V( J; G! s; C
INDOR | 3 ~& J+ q6 J* f2 L) @
: o# Y' X/ I8 L! S7 q
Internuclear Double Resonance 核间双共振 |
) ^' ?; E: v* o* n5 |& x2 U# u! i8 v: X4 H$ t6 @
|
# c( |7 Q/ |6 F INEPT | $ u* L( |- l% R! U/ w+ v
- m- Q' o8 f O9 d" C( u Insensitive Nuclei Enhanced by Polarization 非灵敏核极化转移增强 |
- y8 Z/ r1 Y6 f; _$ x
1 |) M$ G7 n5 @* V* F* ?
|
+ |2 _9 {/ E% [+ }! |$ ? INVERSE |
, M q9 t% @3 c# s% s) [
4 V% R" J- _/ d5 ^ ? H,X correlation via 1H detection 检测1H的H,X核相关 |
: d; T( c5 o- ]. j- j$ y% c
' B$ z* P J5 k3 N& }. N; J9 }
|
! V G: {8 t$ s IR |
8 O. {& s& r2 S b
6 o) k; X) c8 p# _( \( b& n/ ~ Inversion-Recovery 反(翻)转回复 |
- k" g2 E1 }2 L7 s# q1 y
" F6 F5 @! i! l7 ~' {
|
7 F& d4 l& F) I JRES |
. h6 r. g8 \5 a4 a8 Q7 v/ e: R1 T% q7 b/ Q, F* b0 k
J-resolved spectroscopy J-分解谱 |
6 U, L# S; R1 y6 E/ O3 R% @; H
- W D) C7 T* ~& j3 q5 o| % P# R& ?$ T1 s& g3 t; U3 Y
LIS | 5 H- m( e. k7 s! \0 V" Y# f( m% r8 A
) l0 B2 }$ u, R) f: B
Lanthanide (chemical shift reagent ) Induced Shift 镧系(化学位移试剂)诱导位移 |
# o7 ~! F7 r. X5 `
4 x: O: K4 b e| $ c1 {/ T! m% K, P) Z
LSR | ' @: f( ?$ X& ~6 v# T) f# D n
0 e3 q' z" U: }- v$ ~7 Z/ s" v
Lanthanide Shift Reagent 镧系位移试剂 |
7 l7 N/ s5 i* x$ V6 }3 j* A: I( Q' r4 B, a a$ K8 @
| ! p8 b6 K4 k& s6 Y
MAS |
( ]3 J; F- y1 f. W9 g# H7 o4 F- j, P: N8 z0 g. K; ?& t
Magic-Angle Spinning 魔角自旋 |
% I* E0 S$ T7 Z( g$ L5 O- \1 Y( V) e) p. X+ x/ p) b2 l
| " R! Y6 P9 q) o. }; m
MQ(C) | {# t5 F9 l% r4 l9 X" v5 _
- n5 H& E3 |7 q0 v Multiple-Quantum ( Coherence ) 多量子(相干) |
+ v8 N+ C0 l) D5 n: J8 T
/ u, z$ x# R0 g. C0 Y7 l
|
( r3 r- B9 [9 H MQF | " C3 C+ z- W% o; w/ n: C
5 H$ [" _! p; U7 P6 G r4 p Multiple-Quantum Filter 多量子滤波 |
3 ~( C3 }6 d1 F5 |
% o& |# M8 d/ M2 ^| ! n' @( t5 [1 Z/ f2 \
MQMAS | ! I9 w0 z* Q9 E# ?. d n# ]0 o
4 ^1 R! g. D$ n! ?6 V4 d( f( a Multiple-Quantum Magic-Angle Spinning 多量子魔角自旋 |
+ o7 b; K! z! u' f# e/ D( H
* O" n: A; x( U/ N; c| - X7 o( X, ?. e- q/ n4 N
MQS |
, v+ U& n1 Q4 e* l! w
* q' r$ ~0 i2 ^: a \ N' T Multi Quantum Spectroscopy 多量子谱 |
' N6 [. m/ f* t9 P H( G1 _: X0 i) p1 G# m+ x0 A( K/ n5 b9 n* I# t
|
9 L$ [3 Q# [- d5 z3 F( R8 \ NMR | ; y$ O3 o& R; T& C( z2 q) \# f/ B
/ S R9 j7 i5 k2 @ Nuclear Magnetic Resonance 核磁共振 |
4 M) k" n( ?9 R6 h- h+ j$ Z6 k7 j; v( z4 ~; _
| * f- ~7 b% }% C) Z* z8 Y s" i
NOE |
0 d$ r7 c& P5 A( U ~9 q9 @* Z5 l' x/ ]& i7 D
Nuclear Overhauser Effect 核Overhauser效应(NOE) |
; E& X5 X$ N0 O% C: B
/ l4 V4 V& _- O3 B|
, O0 s1 Q% g: E, t+ T- ?7 B6 \/ ~. f& h NOESY | 5 l% w F3 d3 p/ f9 m( w
. Q$ x7 p2 u: R$ D6 [ Nuclear Overhauser Effect Spectroscopy 二维NOE谱 |
' G, j0 q- ?8 i) y/ }, p
& G; ]1 K' u. C* q, y! V' H+ H% p|
6 D* f! F+ L& `# [. _ NQR | . M, ?( W# s0 M4 c2 b! B4 }
7 C Y* P/ W! `/ Y F+ K0 y( B Nuclear Quadrupole Resonance 核四极共振 |
: V; b* X z7 r( q* g V
% x! }* P: x4 q6 G2 B|
, h% M m! o2 }$ O6 C4 @9 P/ s PFG | + A+ _! x% e. `! }) j
- w8 a# A' n+ L" r/ O
Pulsed Gradient Field 脉冲梯度场 |
; F! S f1 P, ^3 ^7 q5 g, f% [) c5 F% ? ^) q
|
; r! {5 l. c4 O( [ PGSE | ' d* x) `, b L5 G6 V7 y/ {$ p
5 y# i O+ D: r' Y& f3 S Pulsed Gradient Spin Echo 脉冲梯度自旋回波 |
# f1 E, o8 |2 e0 @/ @
8 e1 _+ [' x9 m- C5 f. P* m
|
: C1 W6 y: j% e+ B/ q. O ^ PRFT | ( ?$ W; @. G* Y+ c" t
3 k& u; i5 `! x" j: n3 V4 a" B Partially Relaxed Fourier Transform 部分弛豫傅立叶变换 |
1 z+ t- _) _* f9 l$ ^2 J3 ?7 {5 ~; S. `. `' ?) u
| 4 ]6 \5 w3 q2 w$ ?' Z) P% p: L
PSD | 3 X& p) m2 Q' _1 W1 o+ K
0 e+ W& ?$ U$ E/ P
Phase-sensitive Detection 相敏检测 |
% o2 ^1 A y# b; v. }# q2 D" G. z- E% y$ E% O% ]
|
: W5 i/ H0 S3 E2 H% c PW |
. P- ]4 t) Q& R4 \2 Y7 [+ v# V4 @: W( W1 R5 ^
Pulse Width 脉宽 |
* ?; D) L0 `9 p5 h9 |: k+ a( ^5 g! k e0 m
|
) _8 R, W( T/ d7 t! q RCT |
; k- j6 H" {- {! |) R% }
6 s. i9 V/ ^, r8 E Relayed Coherence Transfer 接力相干转移 |
1 D9 b- }" l% r7 F$ S3 z7 ^; K
6 _7 ^* w4 @: _: v0 G3 l2 @* t2 k
|
$ a" Z9 F" F+ a/ v" M& X RECSY |
3 R$ \$ D y: K/ [# ?6 v
+ D3 s y: _2 q' a2 q Multistep Relayed Coherence Spectroscopy 多步接力相干谱 |
) M+ R5 _; X7 Y8 Y* Z' }6 G, |
, \7 E$ v+ d, } x+ s0 n" [& V* i|
. |- m6 Q" f/ X* _ REDOR |
+ w } v" x- c7 L& j; G6 P" x' n/ C( _% j m/ {/ \
Rotational Echo Double Resonance 旋转回波双共振 |
$ c2 [8 k% Q9 K/ x6 G
! v' x0 x$ Z# O|
% w0 l$ K2 Y. r2 f' k7 i RELAY |
+ s1 b1 P: M8 [6 q: x- N5 y
( n N- o6 r+ R$ x3 q2 ~6 Y Relayed Correlation Spectroscopy 接力相关谱 |
* r: R: Z2 W2 p" |4 x$ M) o0 Y. S6 b- b2 u5 v
| / r. b G' n, J9 Z# C. |
RF | 8 r- E$ P& x, ^: u4 i% u `
2 O/ e' N0 M9 G2 T9 A& t1 o Radio Frequency 射频 |
7 [9 F2 ?/ f8 z U1 ^
+ b1 d- [; b8 }2 W|
1 `( c/ e6 U* G ROESY |
, G/ e. L/ v6 F+ h9 x* I a5 c0 y# r2 b9 G4 b8 g9 }
Rotating Frame Overhauser Effect Spectroscopy 旋转坐标系NOE谱 |
& e/ V) X. c, _" O+ A; o
- k3 m4 ~1 ^* D|
4 J% _( c! ?2 t2 n: _; n ROTO | ; Y1 p0 t: S$ g* u/ h
) l' z5 w2 P0 U8 Z2 C: L. C$ t4 F ROESY-TOCSY Relay ROESY-TOCSY 接力谱 |
2 f7 V5 P7 q* p+ t9 D4 s G/ Y
2 v2 {* a/ {2 h6 ]- p|
- C% U. Y! r; W6 V SC | 4 l9 ]8 ]% c& r4 V
+ Q2 T9 d4 r$ H3 N7 }' Y
Scalar Coupling 标量偶合 |
2 V& l! e# x$ f0 X2 A$ A
. [2 ], ?& d$ B0 R [& M|
; Y; T# h1 l6 U) P9 @% O SDDS |
( a1 i. y8 \2 L* h `- V, c9 ] u
; f- ^! o5 E, F6 z8 p Spin Decoupling Difference Spectroscopy 自旋去偶差谱 |
$ J |0 @, \ _+ [# V. V$ ^& o
( f5 ?0 Z/ x5 R, y& q1 _& Y+ a|
3 n9 O$ K3 V$ v( v s( F) F9 w' f SE | / D/ G! j9 N; E4 N+ J
! B' t3 L% m( L' U+ Z
Spin Echo 自旋回波 |
: D+ b9 @' o' h ^4 i2 I# W
* L% ]( y( q( F6 G4 g|
1 g( y2 j c1 m3 F/ t. d$ Q SECSY | 9 Q, }7 Z( E/ O6 s* o
0 Z; W. d L4 ^2 i" f Spin-Echo Correlated Spectroscopy自旋回波相关谱 |
5 N' `6 d, U" C% K4 }
3 |4 m' V2 h7 Q$ U$ |* [
|
. t4 { B' @/ y* Y SEDOR | % _+ O8 K$ v+ s0 R
8 n( [. m$ r6 u& J$ N3 m2 Y9 {, m Spin Echo Double Resonance 自旋回波双共振 |
. |* |/ I# G! ]1 F) f3 u- b6 [* C. E+ B+ M" A8 A/ w- R3 Y$ n9 G
| * t; t- z6 K) W3 h2 C' c
SEFT | . ]7 h* |1 Q# P: `
$ S" @1 `$ t$ N7 Y, O Spin-Echo Fourier Transform Spectroscopy (with J modulation) (J-调制)自旋回波傅立叶变换谱 |
/ Z2 P; j4 L4 X# y9 H$ Y0 L2 y E( E0 }; q: h) u
| 4 X3 [5 Z2 p) ?: Z: S
SELINCOR |
# p& P0 X8 b+ o) K1 q3 t
6 @% d3 J. x) a8 l* g Selective Inverse Correlation 选择性反相关 |
$ K, f! Q* l3 D& Z& p
4 E' U1 b$ q1 {$ h# z. b3 Q! s
| & k1 i& t- K$ o: B0 K" r- N3 G/ J
SELINQUATE |
% {% c* H9 o8 J3 u( j1 a2 ~8 E, a [3 V0 |
Selective INADEQUATE 选择性双量子(实验) |
) Y, ~3 R' D5 V( ?' x, |/ P
3 v# G( `; A9 ?4 @7 G" M) }6 [
| 8 |! ]5 v+ q4 M) ^# T @
SFORD | ! q6 G% a2 k( K1 ~& Y/ `( u+ a8 p/ t
/ K! m q U1 l ?, Y" ~' L
Single Frequency Off-Resonance Decoupling 单频偏共振去偶 |
' H$ v2 ^# b7 ` @6 P- k- P9 s5 r
/ ?& u! h) V9 }1 @0 O| 8 U$ A+ i. j _/ K, @
SNR or S/N | % N# }: k8 X. G2 P: Y
& M% {. ~; B" o( [- S8 B4 [ Signal-to-noise Ratio 信 / 燥比 |
5 l `# K8 Y& u& z3 N& \
8 Y/ p$ ~+ o% a: d _! x( n| 2 R9 d3 n5 D' o( I4 `) q r8 X9 {
SQF | - t& Y h) |4 T. J) c) u
% }4 g7 L, L- _( w2 V: {9 F Single-Quantum Filter 单量子滤波 |
" H3 w) A) v2 J
3 r9 ~- G( v: y- R- P
| - G' s+ r: V w- S* k
SR |
) _1 ?! o4 Q/ H1 q. m) Z e1 E0 W8 ]" X; A d- o7 m
Saturation-Recovery 饱和恢复 |
, j* N7 O7 \2 q
5 v7 R0 \3 @/ i% \
| * d& @2 [% d. \$ D2 Z7 }/ `
TCF |
' `4 [2 C" |) y0 ^2 [% g. F" O$ B
$ I8 n- i& z4 v# |+ z( h; H Time Correlation Function 时间相关涵数 |
0 O" y# @; E% T Y$ ]
( y% E$ F& Y0 k8 p4 }' R|
8 ?0 c0 F, O/ x TOCSY |
* }9 _7 e1 p1 j% e) j' B' d& u- {8 w7 O# p
Total Correlation Spectroscopy 全(总)相关谱 |
2 w2 W+ i4 S% Q: ^7 e7 I8 p; L7 y; D4 g$ s" |7 u9 j
| 9 W% w' U4 {% F6 m" @1 s
TORO | # i' n+ M% g& O& d( G9 U
" c1 p7 S/ }- N( r$ Y
TOCSY-ROESY Relay TOCSY-ROESY接力 |
2 q; h; c( U* R. T' G- L& \
: W1 d. g1 g! S$ m/ \& S2 O( p| 6 h4 ?) Z5 X2 c8 _% R
TQF | U" y6 l8 C3 P) R
+ H7 P6 T- Y' V) H* E Triple-Quantum Filter 三量子滤波 |
2 Q& f# c {4 T0 b* C
3 ~: {% q3 q9 X1 a' ]+ z| ' o1 ]* G( R6 P9 a" d. l
WALTZ-16 |
( z6 D8 ? n0 B' z0 q3 L0 z* H3 G% i
A broadband decoupling sequence 宽带去偶序列 |
9 t8 J6 `% ]/ ? i- `
3 b( J4 T: t% ?- {/ _& B
|
9 x" r% @# O3 u# k3 m* c WATERGATE |
- F" R9 f) \+ Y2 w! E5 x: c" ^ o. g: i
Water suppression pulse sequence 水峰压制脉冲序列 |
2 `& a2 x3 E; F2 y, \( F2 ~9 ]6 w9 P* Y3 }$ U7 [% g3 [ J* F
|
* J+ G) j+ K/ x5 r6 [# }+ x WEFT |
2 _' i# u# y1 [3 N- x+ Q
: m1 V8 R7 l1 ^1 @2 J Water Eliminated Fourier Transform 水峰消除傅立叶变换 |
1 X% s5 V8 c V3 W0 N8 w
$ o' O5 h# y4 g8 \( w| ' p6 z0 G- `" x: ~1 J
ZQ(C) |
( S) _. [6 K' [9 ~
! ]# M! V! T/ X Zero-Quantum (Coherence) 零量子相干 |
$ q4 X7 V9 w4 Y! C) R8 H+ ` g' D+ N7 K; _9 J! B( F
|
1 o& Y: c/ x2 T8 } @: h6 }$ s ZQF | " o) Q+ f& s. y0 r% `0 u
4 b4 ]: C9 L4 c Zero-Quantum Filter 零量子滤波 |
1 Z8 ?* w8 f5 x: ?- a2 j2 K2 r
7 ^' z p" m+ A* j5 E4 O; {
|
o3 r0 d G) d5 t( y+ } T1 | , ?+ Q, `* G) V1 M/ w9 g
7 V7 E8 g# b, v, E$ H5 v! p. M4 \
Longitudinal (spin-lattice) relaxation time for MZ 纵向(自旋-晶格)弛豫时间 |
; _, }9 V/ A0 K+ Q
/ B, O; v" y! w: p0 [8 ?
|
/ p$ x5 H! h) l) U1 O) o* q T2 |
8 c# y- d7 T2 {4 g" e% E6 H% z ] p, q5 S
Transverse (spin-spin) relaxation time for Mxy 横向(自旋-自旋)弛豫时间 |
5 m( w' y$ g2 L4 O
* s) V- H7 u/ O" [; O| 2 f1 a3 j1 o+ ^* q$ ~ j
tm |
0 m' y z- H' q% d8 d+ H4 `! O- Y2 k1 F& n5 q
mixing time 混合时间 |
6 y5 B0 T2 @# F, }
( _! |7 Y* M4 [' V" S, Q+ Y|
& w1 T5 G7 L f8 N τc |
^1 W. q' w6 G3 ?8 v( ?" }; J7 C) I5 L& Z* ?& ^( R
rotational correlation time 旋转相关时间 |
发表于 2006-12-11 14:06:39
发表于 2006-12-11 18:12:41
