" v5 s; K7 n& n4 d+ ?. Z5 T- L% A! o2 n- i3 V
| # {6 |1 e; P: m, }/ P
APT |
4 _; [4 l& I1 S. G$ g5 _1 u; v. P0 } D# R. \+ Z4 \( ]
Attached Proton Test 质子连接实验 |
/ c: g, o% T! l
* l# V1 K$ m! n# N0 t$ k) Z: H
|
. ?# [ g: x* m ASIS | ; m. T! L5 [. o' e5 v' C
9 J5 \7 y/ V/ y( s: a
Aromatic Solvent Induced Shift 芳香溶剂诱导位移 |
5 I' k# h+ t% R4 t9 l+ v5 k8 K/ |- u' q, n
| # G% c# t- q; `; F7 }. n( [
BBDR | 1 d4 l& i& z" }2 }% O
1 f2 }8 n) D8 \3 e+ ^% @- x Broad Band Double Resonance 宽带双共振 |
' h1 q7 n( W" j: V0 M" Z8 [8 M6 t7 T9 @
|
7 L( }, F: b; [! p# s( @4 v BIRD |
, _ u" z" y5 P- K8 |% m: T7 G; e9 M2 e
Bilinear Rotation Decoupling 双线性旋转去偶(脉冲) |
, e8 L; f7 A6 G: D1 b0 |4 P+ g4 m1 d4 N$ R
| & A; d- r, a1 `5 X3 z8 l
COLOC | , c* F( A# A7 a |8 W
/ e+ _' T: }9 h+ g: h0 f
Correlated Spectroscopy for Long Range Coupling 远程偶合相关谱 |
1 ^5 w- s. U& ?
- Y5 H/ |. o' x) Z$ N$ r
|
6 K J; I' e9 A) f COSY |
/ E; W# O5 t: w& P; v: v
: r1 E9 ]6 s- V2 d( i ( Homonuclear chemical shift ) COrrelation SpectroscopY (同核化学位移)相关谱 |
. G% R( q' F' f& ^2 C: ^' r1 @
; Q! @5 _7 F1 ]$ B: ^| ! k9 y9 `0 n' m; K1 z/ A1 Q/ Y
CP | 4 O$ D+ }5 C5 J6 q
. d1 ?( x+ j$ Q Cross Polarization 交叉极化 |
, j! |/ V' N' }! ]6 }
c2 X3 t7 S4 j+ o|
) |3 l+ G7 v7 } CP/MAS |
- W0 O b7 k7 ^$ @+ Z" h& P; I
) x. k- O# m& ]# v9 a: h Cross Polarization / Magic Angle Spinning 交叉极化魔角自旋 |
+ i! b1 Z3 y2 \+ O' a# u
5 [- _+ d6 @- a1 ]6 [# D' W) }7 {
| , C. j) _% n* z2 K4 W6 V4 Z3 p
CSA | ( Y5 {" O) }1 c* c4 L0 z
" s+ B6 ]* k v* A5 Q& e& ` Chemical Shift Anisotropy 化学位移各向异性 |
6 J& G3 @6 X( @+ q
i% i& c8 b- {9 e; w) m|
9 I1 n/ c; P. }! ~; ?* g i CSCM | 2 @" C5 Z/ e* R/ F+ A
* G6 |& W. m ^1 }: X Chemical Shift Correlation Map 化学位移相关图 |
' s$ I. Y& d1 k. O% T* k! A
+ O2 ~; |3 L/ W+ w5 d- t3 V| # P% }9 X- z/ L. S/ }5 P8 t
CW | 1 j" v/ C$ h! D" k
}- _* m8 ^" W continuous wave 连续波 |
8 j5 n4 B0 Z- X9 r4 r0 p4 X$ `7 {1 ^
" b* M y" @! t* T2 }" _+ g
| - N( T2 E2 c p/ L
DD |
1 d# X5 w& p1 F
; @( W0 K# ^9 g* T* E4 [. \' u Dipole-Dipole 偶极-偶极 |
! I- ?4 `% S' y$ O0 L
5 {' ^1 L" W6 F0 T9 t$ g Q
|
( P! H/ {$ O* I* c& i$ ]* g DECSY |
9 v6 d$ o% c& P( | b: l3 n
0 i$ ~- Z9 H0 |# ~7 ]- h# ]0 I Double-quantum Echo Correlated Spectroscopy 双量子回波相关谱 |
" ?& Q# x' N8 d9 F% G
. ?3 @& h. ^* s. @2 U
|
$ x7 N. F% j5 U; W DEPT | # P& r0 m# _% h8 g, d
L9 E/ ]8 h; z( X, D2 h Distortionless Enhancement by Polarization Transfer 无畸变极化转移增强 |
4 y! H% B" O5 r" m% E6 g* c9 s4 H
| 8 [6 o+ i ]/ H6 l6 }
2DFTS |
: V' _+ x! B7 x
: w. g! L* P6 a8 S# S6 D two Dimensional FT Spectroscopy 二维傅立叶变换谱 |
" ?, D) C" A. `1 ^% Y! r+ O- t4 e$ h$ n4 M$ x( O" v6 }
|
1 N. T& y( j/ }9 n DNMR |
2 I2 Q- O* a7 v) h; l3 A' B$ L) W' p* m: A! t, Y
Dynamic NMR 动态NMR |
! m, K) m- R& U2 v1 i
* Q) J0 h+ _, Y( a0 ~, B% Z| , b; b' X: q* ?
DNP | 2 i/ B0 T% m" N
. O' z. z ^ W6 Q8 r) A& } Dynamic Nuclear Polarization 动态核极化 |
! s8 z& b" b7 H) N5 {6 S$ A8 }
7 r+ F3 l% F( [8 Y& h7 P| 8 a! Q( r3 [) |- \9 J. ~: x
DQ(C) |
8 B, ?9 `( Y0 F0 E4 T, D1 F! ^; B- Y) b. w4 U8 N
Double Quantum (Coherence) 双量子(相干) |
) r& T5 g0 ^: q, P' ]! H# K! z2 U! i4 O' o' H' d6 Q- W
| * ~' u- P! P& |6 O1 H
DQD | 7 L$ x" T, q3 v" i% j
* V: \: u L; O' N4 u" y9 F Digital Quadrature Detection 数字正交检测 |
9 ~8 o+ I9 V4 M5 w0 I/ p0 u% r" R+ Y6 T$ i9 Y. I6 u$ s
|
: m2 x/ y* [: k7 H1 ^6 r DQF |
% U7 _: k N! B7 @/ l7 M" z( {5 S8 M6 k% m+ l. V
Double Quantum Filter 双量子滤波 |
# w; N# ]2 }1 D3 F: { j; I0 T
# z# A. t1 B0 Q% J8 u5 T7 i2 U% T|
$ D; L+ |2 G! Y0 T+ p% ?0 p DQF-COSY | 8 [% L, {( f& m- Q
' W. J8 T& _8 j- [6 H& F, C Double Quantum Filtered COSY 双量子滤波COSY |
- r3 ]2 e8 V! k& k
' u \6 p3 h; o- |. ]- c1 y| ; m5 k# s1 {8 [/ b0 ~
DRDS | + _- l* ^( p( s0 A5 ?
" V; C& F- n J& j1 g% k Double Resonance Difference Spectroscopy 双共振差谱 |
+ g( V* H( s5 b6 w
* R. `( D0 h4 B7 {| ( S0 a/ \* I/ ]
EXSY |
3 ]1 n" e- i6 {) I& X
9 N& I( ?! ?) U! S; H Exchange Spectroscopy 交换谱 |
) N- M: Z8 ~3 B8 [, p
, }$ C- u, v+ j% X|
. V: H$ a. }8 \- e FFT | 5 j6 H7 P7 {: r9 \5 K
6 G" K/ _/ k8 J( I# ] Fast Fourier Transformation 快速傅立叶变换 |
$ L" a5 ?% V3 ]
" L' k. {3 T l5 t0 b5 Z" Q) r2 C' c|
4 }* s# i& W) K FID | 9 K# B; F8 C1 {- t/ @, ~! V
1 R7 I+ y, I6 L Free Induction Decay 自由诱导衰减 |
. ^- U& \8 p( d, G @ [1 L' @. X( B
6 s3 ^) F7 Z$ B6 [|
7 ]2 n2 v0 W# P+ h' z+ Q" j0 y H,C-COSY | 7 {) G6 D9 h3 l, [: U% C
# g6 x A& d( r6 D1 h
1H,13C chemical-shift COrrelation SpectroscopY 1H,13C化学位移相关谱 |
4 U3 {7 L Q* [/ L e, @
0 Z/ r+ s. |2 |/ B( s7 E+ {2 z! Y+ \|
: @6 W* e5 k( V H,X-COSY |
5 A' e2 F; A1 V: P: p$ Z* X
, }+ k/ g, o( R# b. j6 b+ t 1H,X-nucleus chemical-shift COrrelation SpectroscopY 1H,X-核化学位移相关谱 |
1 f# H1 k' _4 R* H4 g
. `0 \" ?+ L8 \0 j* X|
9 [# u! T# k( p% v HETCOR |
. b3 g+ ]8 ?7 W0 G J, p: L& q7 e
; t" o: V% \) y6 J Heteronuclear Correlation Spectroscopy 异核相关谱 |
8 k. D0 g1 D7 E2 x% j8 a; C. B4 U: I
| : V e& B0 B$ s5 o. I7 G& @
HMBC |
2 u1 g- @$ ]) ]8 _( I) w/ \
5 _$ p) d8 O9 A+ w2 @3 E9 Y Heteronuclear Multiple-Bond Correlation 异核多键相关 |
1 c' R; |$ x) s$ |
7 H2 a ]4 \. K* B j
|
9 p% C4 C( Z* O9 e& K HMQC |
" N3 d1 x4 ^. F. p: `
" ~1 d. h0 c$ m* K Heteronuclear Multiple Quantum Coherence异核多量子相干 |
) i$ c/ h: r6 P2 B9 b- A
9 y1 t1 `) B# {7 F- `5 c- {! M* d| . k4 r* o1 w4 K) N& K
HOESY | ! D! L' _) ~- t: Z' _0 N/ w
" i- J3 {. K# r* v( Y/ Y/ J
Heteronuclear Overhauser Effect Spectroscopy 异核Overhause效应谱 |
9 A2 H$ g5 f l
5 f; x" S7 |3 R6 B9 I|
1 V% L0 |: c+ q2 O1 O5 H HOHAHA | # `: I) M9 p4 B
% a+ h$ d: V7 V+ t Homonuclear Hartmann-Hahn spectroscopy 同核Hartmann-Hahn谱 |
5 w1 B9 T* U( `! L+ i V. t
" ^' j& z5 H' d N5 t5 u
|
- r. r/ N0 ]. y7 u5 O! @- }3 V% w HR |
! Q/ s& Y: a" o1 A7 e/ s: B
9 y, d- D7 Z9 g' Y- E High Resolution 高分辨 |
: n+ }% d4 Q0 m
T" U: E2 [. K7 a: ]
|
+ K9 u: a" U8 F3 f# l HSQC |
5 P3 }, }* L/ A& M; Z/ Y0 h4 K- L, G% V1 \( |" W3 t
2 @! n Q6 v+ p
/ K" I& b0 z& X9 O% ~0 b8 k6 o0 r. A$ W
2 X8 R( x. C( L, A1 ^| 2 U* t1 T7 b- h. R
| ; n6 F5 Q1 D( _( ?: l- @8 w! R
Heteronuclear Single Quantum Coherence 异核单量子相干 |
1 I- x; D: c$ o5 [' y
4 Y3 a' f( R: F; J: z t, ^; |
| 1 \- b: y3 P5 A' H# O- J$ D b
INADEQUATE |
$ q9 ~# B( }; n' z$ B$ ~" {7 J
3 J% g$ B# `2 K, _* G! M 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) |
9 o0 u/ s" L* E% G0 H4 O0 `3 Z
5 T2 W0 ^, A' }9 E7 l. O| ( [. e- r! J- g! Q$ `, W
INDOR | 5 b1 H4 B5 g+ {: ?
* d7 J9 Z$ R8 O: _) l. h
Internuclear Double Resonance 核间双共振 |
\/ n% c/ O: T: `
- u- U, s, u, Q4 ?|
0 T5 Y4 {+ B# c6 [0 t6 K R INEPT |
; V3 n3 K2 N* O, t* v, [2 B; u0 x+ S; C9 K$ w t3 ~ R F2 S
Insensitive Nuclei Enhanced by Polarization 非灵敏核极化转移增强 |
7 D7 L; {% C& v' F; Z+ b2 [* t# F0 }" ?: s
| 9 I h: U% Q, k
INVERSE |
7 m! V* u8 T5 V; W: r n. V
& D- Z; d4 Z: b7 d0 G, N4 d H,X correlation via 1H detection 检测1H的H,X核相关 |
$ X2 G$ t3 i% }- W$ x1 n0 O8 ]' y
6 S9 w8 r/ y+ r; T. t- I3 c|
& a4 t4 C8 w( P IR |
( B5 }5 y5 `8 v1 A7 S5 {& w1 _5 D6 V' A6 n
Inversion-Recovery 反(翻)转回复 |
, u6 {+ r+ A( B! I$ Q' r! _0 ]$ H
/ |/ h! h+ X. B' T+ N+ d; e6 c
|
- `) }0 {- r% B3 R6 @& z/ ` JRES | 0 M: }9 `# h3 s+ h3 w: E7 A
0 }) w% l2 a; Z- G& N2 t4 `. u J-resolved spectroscopy J-分解谱 |
$ F6 r+ P: z, v$ }+ K/ a' M$ r
! r) j1 w' z8 A, i|
, D. V P) T$ l$ [3 Q LIS | $ K% ?3 U4 V( ?% Y9 Y
) C& Z! T* y! L8 {+ u% T8 S Lanthanide (chemical shift reagent ) Induced Shift 镧系(化学位移试剂)诱导位移 |
! x! l. [+ i+ f) I3 A6 ]
: q: ?. w$ W6 v3 U- v3 q|
, I4 q' O X/ Y2 U LSR | : l; ~5 d J5 X5 q6 c
- B8 T' d; Z9 l1 A Lanthanide Shift Reagent 镧系位移试剂 |
+ v7 a' \( y* T. u& Q6 f6 N1 h8 B1 ~4 B: l# P j- `9 v
| $ n6 R! h6 [" N ^
MAS | 5 o# U! Z3 q! H2 a( O
0 @8 d# r, A# e8 C, r5 M% G- B
Magic-Angle Spinning 魔角自旋 |
1 [% o* N! _# ?3 l, Z) [; e1 ~
+ M2 W- _' F2 {+ @0 _
|
9 y5 A5 T. i; ?" M0 B6 X i MQ(C) | ; d1 _1 }* o: i
6 W, q0 W1 E# H( [: R1 P Multiple-Quantum ( Coherence ) 多量子(相干) |
; s9 r# Y+ O( l' g6 Z
$ c6 d* j0 y2 O# \) Z| 6 L8 M0 x# S8 l' F/ C5 x" y
MQF | " K% x$ _! \% R q
1 m, S# s6 j z7 f) l
Multiple-Quantum Filter 多量子滤波 |
; r$ S( Y# M4 M& l. K+ R; K& y& L8 j$ O( `1 N" a6 o7 H
| 8 Q: u7 s, k, C! [
MQMAS | 6 r/ {8 z6 D* d6 P P8 {' c+ v) v
9 p% |8 u6 \% U( F' R! j
Multiple-Quantum Magic-Angle Spinning 多量子魔角自旋 |
! x: {- f' Y( b# S: X
/ G1 j0 V+ E: ~ w9 b8 }1 A" ]
|
% }3 S& S6 G1 \6 V, f; N MQS |
3 c! t6 [" W8 |& ~/ H0 C9 e
2 P& j: [& p3 @( e, ` Multi Quantum Spectroscopy 多量子谱 |
) q* n# j: M, ]! R* o
O. ?% B4 q* v& u' c. T+ X
|
% g+ r2 E ?9 a7 P" p NMR | 1 R5 B7 G2 |4 J: h1 K* [
4 J- [/ L. Z0 k* ?" p1 i Nuclear Magnetic Resonance 核磁共振 |
0 c- m" N+ r, w' A- e; ]; V
/ c4 ?$ ]) w! u# `| 7 D8 `) O/ d. T- o0 `
NOE | # a5 r' Z( \( e! s+ l* W
; ~" l. g1 u& C! `
Nuclear Overhauser Effect 核Overhauser效应(NOE) |
2 r: i; e& U7 r( {8 f$ c: ?
" {; k& e4 x( f' Q& D9 Z
| 4 f3 A- ~6 @/ i5 m9 y& C! I
NOESY | # E: a6 q4 O \; I' o( u: F" i, K& R
m, m3 v+ ?5 h8 O Nuclear Overhauser Effect Spectroscopy 二维NOE谱 |
; {9 S4 r9 [3 |( X) d; }, _5 ~0 O8 k! X8 r' p2 b, t
|
9 l. c, P/ g7 L4 b2 ]. z NQR | # P7 E9 \5 K% N& y" P% Y% l
# o/ |6 {4 ^: Q, V: E
Nuclear Quadrupole Resonance 核四极共振 |
+ Y& U" b( j* [# O/ \+ f7 Q, N. z4 ]% A- m" g8 X
|
7 v( x& g9 f1 \/ @ PFG |
( K' O& v+ O3 h; H4 T# M# n0 ?( V' u" g4 [4 W9 g( ]$ e
Pulsed Gradient Field 脉冲梯度场 |
3 x# F R; d L& E9 U0 \
" Q3 Y7 P! t; A|
# _/ n+ Q$ r* A' `4 Q" {' ]* ] PGSE | , ~ |! e1 H" b, F4 L. ?; t3 e
. j: M/ Z. z: ]8 u8 S3 d$ d5 | Pulsed Gradient Spin Echo 脉冲梯度自旋回波 |
( g% T, J2 ]8 k4 w" d% y( H( I& M. I! `
|
5 R1 T. H, n! Y! U8 H/ x8 O PRFT |
# R1 R5 n/ @' g0 _# `. l2 V8 w
3 O5 `1 m2 t* M Partially Relaxed Fourier Transform 部分弛豫傅立叶变换 |
5 f: o/ h( P- A' x: l K( ]2 N
3 w- U' I; g4 h! J
| 4 N' P# u8 J* r% l0 `
PSD | , K" O3 `7 Y' }" |- Q) m
9 Z5 z8 B7 e4 E( H Phase-sensitive Detection 相敏检测 |
1 P) g" f# ^; U$ V& I3 i3 h- T+ `: m- j7 R% d
| $ ^ I( I/ z, |% g
PW | * J0 O/ k6 P) }1 i3 I+ H
! S. {9 |5 B; n9 `
Pulse Width 脉宽 |
/ X; W. n! \& H0 L! W+ S
: z/ d! M/ I9 @ E" g|
5 X2 l$ s O) s9 Z9 [( ]7 i RCT | 4 J2 C* W# O3 F/ |
. U( G2 U( O$ W( o/ k
Relayed Coherence Transfer 接力相干转移 |
6 `' x& I' X! S, K- t5 K! f
3 w' A& d H& L4 U| % z$ V. X/ l2 |2 k1 r
RECSY | % A/ G( v, B3 ^6 a6 K$ `* O
- \8 p+ E4 e( S7 R. V' f8 q$ e
Multistep Relayed Coherence Spectroscopy 多步接力相干谱 |
, g3 ]( Y* r0 h$ L6 J3 I" G+ ^
$ [, j' K& C+ [4 s8 I| # \* M3 ^' }9 W* e" z4 s4 l4 T$ M1 q$ y
REDOR | , k* K# O2 l4 ?7 X- \( b
$ b, W0 g1 k& J9 Y' B* O
Rotational Echo Double Resonance 旋转回波双共振 |
3 s: K" L/ c& \% e R$ K4 h9 \9 i" \; Y% @8 r9 T4 _3 i7 D
|
0 O+ y% K7 j) K7 R# g& M: ~ RELAY | " L. W4 _4 Q4 j3 I
) p1 u% k; j: u; i: u" E# b Relayed Correlation Spectroscopy 接力相关谱 |
6 d* h% Y; [ k5 }8 N) B% X8 T* I& Q
| : |$ w- J% ^5 w8 r/ B
RF |
- G9 a3 m1 z0 M3 e1 t1 Y" K/ @
2 `0 t- E- G# A6 o, `$ | Radio Frequency 射频 |
2 n1 @9 \9 f1 X
/ Q: I: j9 r ~% Y: _
| ' e. F6 ]# c! ]' X3 j, }
ROESY |
/ M7 @ j5 Y( X1 e' z; D& A$ ^( s
& O5 A8 g2 w2 ~( Z3 }* Y Rotating Frame Overhauser Effect Spectroscopy 旋转坐标系NOE谱 |
+ I1 c: P2 j P# N6 r; L; ~1 o( K, Q! G, A& X
| 8 a! G# A& I5 A* p8 g0 f5 T+ X1 |
ROTO | : D5 H& R2 j, r) @4 N
9 l+ G5 [$ k- N$ e- G& g
ROESY-TOCSY Relay ROESY-TOCSY 接力谱 |
4 D0 d# ?! H1 o+ E" s0 b0 X; J& I/ X
0 P/ r: L# S& h| 3 U3 W( l) U/ e& G+ z
SC |
1 W/ u, J7 N3 o5 Q0 e0 s y3 k6 _0 I8 _; p* ]8 w
Scalar Coupling 标量偶合 |
4 i. ~/ d" A6 s* E4 C+ A
* b7 B" K! G8 j: l5 l
| 6 B' a7 \, E& o
SDDS | $ i8 U* h a1 |8 `" l$ r& s* f
& w. {7 o5 a u, L' M
Spin Decoupling Difference Spectroscopy 自旋去偶差谱 |
% r2 C+ t, a5 g9 P( d9 F
. _2 Z% F r" C; p2 _1 |! d. H|
; Q& B" @ q9 D/ d SE |
' r" K5 Z0 n- ~% ?; D5 U
% k7 N* k6 q% F% ^1 N Spin Echo 自旋回波 |
6 C e3 K$ X% H/ k% E
# v- ^1 w9 @8 U v* s2 P
|
/ K& R X0 d2 H SECSY |
- d) e1 U: B6 h5 J j# ] H- g0 I. \3 b) I
Spin-Echo Correlated Spectroscopy自旋回波相关谱 |
e+ g$ W. d3 q2 w
( k+ m' J1 s) V; b2 \|
* \9 o2 j. g; L0 f2 i SEDOR |
3 d) K& U! ~0 p" q% M i, m
# t1 t8 r, N5 j7 O; N0 c Spin Echo Double Resonance 自旋回波双共振 |
1 _2 W) Q. J, c( S& P" P
0 d9 A# `$ C) q2 |7 L|
' K8 l7 X* M3 @" @ SEFT | % o6 U+ W9 W. m2 J- p" Y5 D
% m$ c. [. d8 S! G5 w5 T9 M
Spin-Echo Fourier Transform Spectroscopy (with J modulation) (J-调制)自旋回波傅立叶变换谱 |
2 p* q4 H ^+ g0 U( Z! n& ~
) Y6 k2 C n1 L; k|
- ?2 ]- b2 B/ z. w5 y. F1 `' Z% e SELINCOR | 8 b( v( U( f/ M9 W" I7 T
! ?' l9 z9 m& K$ e
Selective Inverse Correlation 选择性反相关 |
+ u; q$ x$ f& Y$ K. n3 q
4 K1 `: Y: ^4 k- Q) g: h|
9 q& [+ A$ c- `5 E X0 t7 c SELINQUATE |
9 G9 e1 o- b3 o9 E6 J! {1 U
# q* z, l7 ]( y/ P! Q( H5 W Selective INADEQUATE 选择性双量子(实验) |
+ q# R! s4 H0 B5 C& [7 y4 H9 D
! ?. M9 Q0 T2 c/ o: ]0 w| 0 z: d4 O" P) P t$ I6 |" f! u
SFORD | 6 v" }+ f( Q0 Y- g
9 }0 q u n( m( F+ i; c
Single Frequency Off-Resonance Decoupling 单频偏共振去偶 |
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|
| R* I. Q A& ] SNR or S/N |
% v/ U, A+ n P9 S! ]: K9 k; x/ w* s- i& N
Signal-to-noise Ratio 信 / 燥比 |
: c7 S/ E$ T- C+ x R
( {7 B; |4 N- f0 {2 _| % _7 h! a* _6 C5 u* y% F$ ~
SQF | 4 P+ Z# C9 t( {9 O+ W0 V
8 E# L1 x2 N X- M/ I3 K
Single-Quantum Filter 单量子滤波 |
% `0 a3 k/ ^) l8 O& m! p0 Z# A+ n
3 k% @. ~7 y( G, @0 ^|
- @* x: y- T2 |. E5 o- s SR |
3 g! W1 N5 z3 c' {& Z8 D5 f( D4 [' |% W
Saturation-Recovery 饱和恢复 |
- s, }2 u5 M& x* s9 Q8 \+ P
& [( j% v2 [/ X! o2 }) y; d7 ~
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' t/ n8 {5 W% @& r' `: g' f9 W% }; U TCF |
% `- b0 I: B9 W
- J' c9 Y% e: }- \) u Time Correlation Function 时间相关涵数 |
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: t7 c8 ]! i% Q* p! h|
) O) F* t! i# O8 |; |. L TOCSY | 1 l' M& t3 ~% b/ B2 _, B* l3 n# F
1 Y! k n; @2 l: n
Total Correlation Spectroscopy 全(总)相关谱 |
1 t7 U7 g+ L/ E# H9 o- E) g0 e n
' u2 Y; S$ S) f# j8 y| - `6 P: D. ]1 q& [; N7 q
TORO | 1 M7 v" k+ j& j1 \4 g% k& _
5 l7 }+ a7 p. M. U: C
TOCSY-ROESY Relay TOCSY-ROESY接力 |
2 Z# h P, G5 e4 O
i; M- X y* q r) I2 o| 8 H5 {+ G& k' |' ?; P& f9 z
TQF | - t! P1 x. g: x/ y4 B
, |( g9 j9 t0 l Triple-Quantum Filter 三量子滤波 |
) W, z9 X- a d: {: M
* n; C4 U2 Y+ v| : f; _" t* R7 R8 q* i- I8 S2 z
WALTZ-16 |
& g A$ y# Q& n* M8 ]* h! i5 }& H6 d! {" X% Q
A broadband decoupling sequence 宽带去偶序列 |
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5 `2 J6 r9 L# _: e3 h: ~- R0 p* Z
| 1 R- H2 A* X1 s* [+ l& v
WATERGATE | * a r. M4 A3 n) {& ?
* c, j2 ]+ j, E& C; R
Water suppression pulse sequence 水峰压制脉冲序列 |
( P. c; ]3 }* P, p( x- p8 Y4 N2 M3 j$ ?/ D
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2 n$ k9 ^' A+ o& b WEFT |
8 B$ P, m% g6 k" \, f, [- Y& Q
" l/ v: i+ Q- k; t& Y; @ Water Eliminated Fourier Transform 水峰消除傅立叶变换 |
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+ Q' W6 ? Y0 {& Q; C ZQ(C) |
$ k3 k& l6 e9 N
8 X! c% u% J8 S7 |4 ]% I! b Zero-Quantum (Coherence) 零量子相干 |
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2 W4 P# d# Q) F' @# J1 `* L b* Y5 n ZQF | 9 Z2 `' p6 J7 e% i) w
" M. X$ X: `/ }; p
Zero-Quantum Filter 零量子滤波 |
( [$ H5 _8 X" |8 O1 A i" X* ~$ A' A+ E
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: ^" P! ]: J% z( `* T T1 | & ]/ K" N7 J8 N, Q) Y
/ p% \5 ~8 s. s- m8 H3 _6 Q4 O1 N
Longitudinal (spin-lattice) relaxation time for MZ 纵向(自旋-晶格)弛豫时间 |
5 H" C! D C, F% _; g1 j& [" i+ H
& y! R9 q! ~" L% L|
. ^7 T( `5 _3 o O0 T T2 | ! d3 M) u+ W1 ^: M8 T: u: @7 M1 V& e
9 L+ n5 g+ N) E( ?# M" z
Transverse (spin-spin) relaxation time for Mxy 横向(自旋-自旋)弛豫时间 |
5 k3 r; k1 k3 z: W7 S
# x' T: c N2 F1 _: D|
" G4 m, `! \3 c5 J4 E) \6 F tm | - [7 F0 m& Z" w) }5 f6 J6 o
$ }: a0 s6 G% r/ n( n& v8 l' e& E+ W mixing time 混合时间 |
& S- v8 D& ?2 M" o3 q
4 v, Q y& [; B5 W) t0 S
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$ `- o a; T# {& h0 Z, |* D2 A τc |
3 r7 q" O6 D' d" c1 [! p9 n3 I0 v% a2 D' T
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
