$ A9 M' L* Y& [: m
, N2 k2 m9 i( x L9 `
|
; p" ]+ Q. p V3 @9 O! v( C APT | # z% y+ V' D2 N) U
% ^9 w! ^0 C1 {; N' s' [$ l9 B Attached Proton Test 质子连接实验 |
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7 q; l/ K5 j. Y" J( n) r
| ; N. y% U/ h0 F
ASIS | $ q$ r0 `7 U( Q8 ~
& i1 Q, ]* |) }: k N% D. ]0 d" B6 ?
Aromatic Solvent Induced Shift 芳香溶剂诱导位移 |
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9 M5 ~+ F# T- Y; P
| 6 E! h4 X: o1 V5 C) l( n3 |2 x
BBDR |
L. W0 [2 h9 P1 ]* t& z
. ?: v8 v0 h% y+ }/ `) r Broad Band Double Resonance 宽带双共振 |
) ]6 P1 ]) Z) P/ }
+ s6 M7 q4 r" a& t|
) n/ G0 J( k" n ^6 _ BIRD |
1 a$ J$ \6 v! l6 b- T# }9 w
|0 ~& g- n9 S) d8 s; W! ` Bilinear Rotation Decoupling 双线性旋转去偶(脉冲) |
7 Y; D' Q8 U( l" M: Q# z( B' Q0 R: }
/ [1 ]6 j# I8 \* T" j2 B
|
! Q1 `5 S! ^3 q- [% d6 B COLOC |
" p$ t5 u+ Y4 B4 V4 I1 V
, o' @" K$ _5 `$ Y Correlated Spectroscopy for Long Range Coupling 远程偶合相关谱 |
) V5 q# z& p8 F4 a4 S: s. J# | P, P7 G! ~2 p9 _, f
| " f+ d+ ^$ a) R0 w: F7 I
COSY |
' ]1 F8 n$ k3 W) h* ?
. S: h v6 a& s* V6 w- @, ? ( Homonuclear chemical shift ) COrrelation SpectroscopY (同核化学位移)相关谱 |
1 c3 D7 F @/ I5 |# n
) ^3 G* R* Z- \| 7 q! y7 [" x# |6 B# K6 q) D! s
CP |
2 f! z. Z) k, }. `: q, `5 Z b2 o9 a( N* Z- O
Cross Polarization 交叉极化 |
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|
8 G$ u& G4 I3 @' g- ] CP/MAS |
' S' p1 i% u7 [, S' u8 ` g
+ b( L: D/ b$ A6 }) Y( n Cross Polarization / Magic Angle Spinning 交叉极化魔角自旋 |
+ Y( c/ j* E' A" h
8 `* z7 e/ f6 M! u% E8 @& M4 V5 ~- M
| - d* D/ n c1 @" W" u1 j+ l
CSA |
1 o$ E j- c6 N, y) J" w4 j+ G: Z# C& A. a0 J( \% [, F
Chemical Shift Anisotropy 化学位移各向异性 |
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, z `! T# _; _|
; d* i8 ~! d5 T8 W CSCM | / A7 W2 Y8 u# |0 @# u" E, q; n+ M$ ]
+ m3 R$ L' Y( o. m1 i2 O' v Chemical Shift Correlation Map 化学位移相关图 |
' R" t# B I) }
# z1 l5 q7 \, z) i$ d% H0 F| . [ W9 U- [# h8 K9 n* O
CW |
. I, T. S8 {% R) e) T- [, L' c' d( w% f+ {, I1 ^
continuous wave 连续波 |
& s o' x2 x) W0 j; k
) U+ n: s7 `1 R k" r* ?| + r1 r! ^4 o$ O2 |6 G
DD | ' T5 I% i- G% ]( N1 o
+ h: o& h2 ]+ H' b Dipole-Dipole 偶极-偶极 |
# T2 r8 I' F6 C/ P/ i: Y& [% z
+ J/ [' P, E: K7 \9 V|
2 h) {" X3 `' Z& q* C5 k DECSY | , O" O, o; Z) i: `: X
5 G& L+ }3 ], W+ i: Z) N% p Double-quantum Echo Correlated Spectroscopy 双量子回波相关谱 |
& [$ L# r8 |1 x! o2 C, I8 q( Z$ s4 n: I2 U8 x
| / k5 Z! ]1 @- t/ m
DEPT |
3 q3 G. q" ^- F. p- ?. {3 {& L1 q8 }, U$ d+ N6 {# W$ V
Distortionless Enhancement by Polarization Transfer 无畸变极化转移增强 |
# w$ {- D/ {8 d) L0 D4 L) I
9 [6 c1 P+ r2 X|
, U0 P1 d$ C: W ]6 g 2DFTS | 1 W ~( @+ t' ^* j9 G
! o& z, u: h1 W0 L two Dimensional FT Spectroscopy 二维傅立叶变换谱 |
9 H3 }" `7 c# M8 s3 J6 g# g0 T1 F1 Q
: b% E- s3 Q- H1 v4 t0 i9 D| 4 Y8 `* y& b7 s, `( c9 _3 k" C
DNMR | . v4 }2 M7 ]. Y: {
# X& e3 L+ k7 i; q& A6 e# o9 n; m Dynamic NMR 动态NMR |
" O0 Y' ^# ~- I) F5 L' o G4 N$ ~( p" R& W
|
. g6 P8 q. `; }- g5 f DNP | 0 V8 ~" ~4 Z4 J) A# _1 h4 `2 t% {
+ L* L. f/ q' v, G8 X( N
Dynamic Nuclear Polarization 动态核极化 |
& [# A+ E! [; v/ \+ h% u1 }; o4 J8 D; s* k) A! j0 O& p3 M
| * p- C; m' `+ {! k7 p
DQ(C) | ! P/ W' j2 O; C2 {
! X' o6 C8 P3 l# k# c: Y- B Double Quantum (Coherence) 双量子(相干) |
2 y1 k8 i' O5 D) ]* }8 n6 D
0 A# J( H: N$ G* `* y5 f" d|
! L2 R/ b3 ]. \& d8 g: {1 O' f DQD | - \. A2 _$ u5 \2 h4 Q8 k# X$ l
/ _- S& \5 C. J* [) M0 O
Digital Quadrature Detection 数字正交检测 |
: z- ]2 D6 R6 i* V' \: T5 o0 r
" a! [' g6 v& Z$ `+ ||
) f/ N9 p* d" p4 g* L$ \ DQF | + J4 ~6 P9 I; [ d
6 j6 E+ K9 N) p, w- z$ L5 p Double Quantum Filter 双量子滤波 |
9 c3 N! i4 f9 P& _8 w0 Q8 |
! x$ ]3 C! h! x: C|
. ]4 b. b& N1 G+ c) {* n DQF-COSY |
- r3 B: }. X/ g" J1 K) |! c2 C3 P7 Y/ S; O: K
Double Quantum Filtered COSY 双量子滤波COSY |
2 ]5 B% z# c2 x' \; f, B. R1 {: j: e- U5 ^$ I/ W# {6 Z- ]
|
9 Z6 V" l3 W0 J7 |0 k5 P& c DRDS | 5 L4 v1 K' _$ K0 v( q
2 M: O( ?; ^- l3 x( }* Z- D Double Resonance Difference Spectroscopy 双共振差谱 |
6 F X& n* r* S$ ^% [
" b4 l) Y6 O! N8 F2 w| " C; k7 x/ n Y# |/ w2 t
EXSY | " I6 t- \1 |. G. H2 q9 R
$ O& p- e5 k: U# V! q1 B1 Z Exchange Spectroscopy 交换谱 |
% ?0 j$ l2 |( e8 H( x
9 y. `3 t$ u0 q' `( @) I [; w|
6 B% M3 U A6 B) p2 \+ ` FFT | & G, X# F- r/ T( ~* d
0 h2 M& g' t/ } Fast Fourier Transformation 快速傅立叶变换 |
# c9 k, D8 {" ^. \: p: W) c$ u3 d
9 B/ a+ V" E; o {" L|
% [$ O0 x7 w9 Y& _ FID |
3 s" N4 t$ w# G9 O8 n- B5 ]; u. O0 C5 s; Y3 Z' l1 C
Free Induction Decay 自由诱导衰减 |
, S1 s0 r, B \9 T3 M- h& g
0 [5 Z5 U" P3 e! a( {| 3 n; {' g3 M( I( s5 l) ?
H,C-COSY |
4 S+ h1 l+ Z4 ~) ?) u1 g4 p
' y& B0 a, O! h5 a 1H,13C chemical-shift COrrelation SpectroscopY 1H,13C化学位移相关谱 |
# T4 i5 E1 F. |, G O# j& ?
7 y+ K9 F& w5 A- A" j' T/ T|
/ z) ]& t% M1 [ H E! I% x) e H,X-COSY | " U9 f0 r- [5 ]8 }) q f8 \: C
. L" z. E. f; E 1H,X-nucleus chemical-shift COrrelation SpectroscopY 1H,X-核化学位移相关谱 |
" J8 y4 m/ t' X
: D! b2 L+ b! r8 w1 t# q|
: L8 _: e8 h: @9 n- G7 K% J HETCOR | 5 z/ f. D7 o' \( C2 }6 T* R O$ p
$ m( }. Z) L4 N! _" C/ b. x7 R
Heteronuclear Correlation Spectroscopy 异核相关谱 |
3 A; I% n- q% t' ?* I
m1 w2 N, I+ r& d
|
" N. r X' l& M L5 F/ I& C6 ? HMBC | 6 i9 s, G$ \& |( s" E
; N' [, |" I& y) {% |- g: d4 o
Heteronuclear Multiple-Bond Correlation 异核多键相关 |
: K: c+ r& r; U+ C4 S# f
( v0 H. g( y3 `9 B$ |% W' E# H|
! q3 y7 j+ ~2 `( | HMQC | + S J2 h" m: f. J
2 C# ]3 k, e9 u4 q Heteronuclear Multiple Quantum Coherence异核多量子相干 |
5 Q Z& X/ H- |5 M
0 `4 v1 Q$ |) M3 x+ h+ [& I
| ( u+ M# K. R" U1 T) o( E
HOESY |
# N) t+ Y" E" J9 D+ R1 r
$ N& ?6 ]8 D9 _( h Heteronuclear Overhauser Effect Spectroscopy 异核Overhause效应谱 |
! S, K& k: y! f. i+ m% W r5 o
. \3 I5 t ?" z1 J| 2 l( m5 W! A) z/ F
HOHAHA | * x0 o8 j- m$ i& v( ]6 G, e$ \9 S* i
j+ h9 s9 [4 A& I$ u Homonuclear Hartmann-Hahn spectroscopy 同核Hartmann-Hahn谱 |
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| 8 r* T) ^- |- a) a
HR |
. r8 P7 w6 Q( b
$ `( \# C3 |+ `1 H. b8 R5 [ High Resolution 高分辨 |
5 B2 T. L& [4 T3 u8 }! I3 L
7 T9 r! K" b; s0 }5 i" a| & b4 s. r, u) t6 o) B: Q
HSQC | ! a; u+ _0 L' D- H+ v5 B
9 z: _) C3 C* V! C
- F4 L b7 L% c7 z- C
' [: I" y9 j3 H+ A9 J; e' n X9 g; a. h
2 P: U- e! M* W; |
| ( l# _$ s+ n- G, G% c7 Q
|
/ D: a3 D3 q- G* T) p1 ?Heteronuclear Single Quantum Coherence 异核单量子相干 |
1 ]5 ~- B6 Q/ z, [/ S
+ M- I9 i# |! M5 S# {$ S& D
| 4 w' e0 ~2 ?. J5 A' P7 T1 r1 @5 M
INADEQUATE | * }% n; G9 M( D, U
$ T2 y2 D5 g+ Y" v. ^, B
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) |
2 y4 M) v$ b8 R u, }" J
8 d$ I) ]" A- r. w| . r8 W5 t7 Z8 M# b0 U0 h+ v
INDOR | 5 X' ?' |/ m4 A& P" {4 j9 v
/ b; {$ o! F7 Y Y
Internuclear Double Resonance 核间双共振 |
( d& V+ Z) A% M# u7 y, g
r& Z) b! C# W$ y|
/ m3 m. z4 P( u6 u% g INEPT | * c1 B! h5 J. C# B( y( [! P
; \8 j* s! ?9 M! Y R Insensitive Nuclei Enhanced by Polarization 非灵敏核极化转移增强 |
3 `0 N5 d( ?! n! N7 V/ G& j2 V/ C( c* m/ c9 H) f
|
D' ~" T: i O' c; q INVERSE |
0 g6 W, m. U* E* T' q: {" c3 r6 E: P
- H9 y8 Y U0 ~# v: S H,X correlation via 1H detection 检测1H的H,X核相关 |
! e+ Z- M2 |% }
; `+ f6 Y" b7 d& @( ?, ]|
6 l% U {/ R2 G% X5 D IR | ( K' w+ @% z) ~* ]+ Z) _
$ U! W* z. g1 M2 b; x, _7 n' P Inversion-Recovery 反(翻)转回复 |
8 g( X. x, P8 G" e
+ ^/ P5 G1 O8 ?0 B7 Y9 j|
0 y1 [( }7 A: `- \3 | JRES |
& M8 y- W6 |/ V9 c- P! M: i$ k. H; k& e3 H4 @1 @% m- O9 A8 f7 G
J-resolved spectroscopy J-分解谱 |
% v4 Z7 s2 u# I: h, p2 c" `5 E; Y" a$ d6 N( _2 F: ^- V
| $ g0 I7 m0 `3 u' Y$ v+ h
LIS |
: A, k" X8 W8 J% `* D8 ~
* n2 j& c8 a6 g3 e Lanthanide (chemical shift reagent ) Induced Shift 镧系(化学位移试剂)诱导位移 |
; A1 `% V) A; ]1 q6 v
0 h8 G: P* ]9 r: W+ G) ]9 z" L
| T. {# T( T( E) U+ |. L' I2 y
LSR |
2 u0 R5 a) x# p) U% u8 @
) x2 b4 H9 @, i% B: t/ s Lanthanide Shift Reagent 镧系位移试剂 |
& R) y1 B% l7 O* f) u# u, b: ?8 t+ X
| 2 n D. J: @ B/ Y% g
MAS | * S; E, r2 N. Y Y6 @! R1 Z
, t0 o2 `# [; ]& h/ g% {
Magic-Angle Spinning 魔角自旋 |
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|
2 q: T, j8 ~2 |8 O4 t8 N- N MQ(C) | 8 ` H& y6 h( g* i( ], {" ^ k
7 H9 u3 n6 L' l: Q' [
Multiple-Quantum ( Coherence ) 多量子(相干) |
+ e1 U! ?2 R D, w
( Y! O' `. x2 d/ || % P1 b$ H. D! _8 p( [: m: w9 J! a
MQF | , y) q. B' V. E% V4 i! d, J& `
/ }/ _6 t9 J" \/ p+ y
Multiple-Quantum Filter 多量子滤波 |
8 q2 ]7 N7 V6 r* {2 y1 f) e2 Z" k: o' S
|
0 G. \; C0 _0 a5 @ MQMAS | $ L+ O- l3 }% K( ]6 a
2 D( w# t: V- G5 h7 C% K) ~ Multiple-Quantum Magic-Angle Spinning 多量子魔角自旋 |
8 ^* M' }( [) e1 R) B) F# o. K
2 J! Z, \- ^4 ~; R. f; \$ d| 9 \% F1 d& u+ e4 Q6 p+ f7 c) \" X
MQS |
7 R v4 \9 R( p5 H3 _% n
) U) X) F9 ?' } Multi Quantum Spectroscopy 多量子谱 |
1 k+ x1 ?0 _) t4 T" D
9 i3 Q0 ^4 `4 v0 O3 f/ M
| + J$ I- T8 f$ W- q' s# N
NMR | 4 s/ T) @% G9 z+ P# h
# ~4 Y, h5 _! L& F; u' d
Nuclear Magnetic Resonance 核磁共振 |
4 ` D1 H2 v; J4 g3 Q
0 A# _+ I9 H4 \: c0 h' x9 j9 ^
| , ?. R0 B; r# S7 l5 A9 f
NOE | % S+ W- E2 d$ |9 A7 I0 V5 f
1 Q+ r7 g' x! P( ]% @( l Nuclear Overhauser Effect 核Overhauser效应(NOE) |
1 _; O: [4 v- N8 m' o& }7 o- ^+ `0 E8 b4 R7 y
|
^5 r2 b2 h5 q* U NOESY |
0 H0 c0 O8 h/ ?" O$ l7 _) K5 f. m% s/ Y1 ~3 L
Nuclear Overhauser Effect Spectroscopy 二维NOE谱 |
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, ~2 G7 r r% r7 P| ; g7 v5 d0 j8 L4 z; v' X
NQR |
/ {; B% l7 ?3 {/ ], s8 g5 L
) \: O) F5 m( {4 w Nuclear Quadrupole Resonance 核四极共振 |
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1 Y8 f" H1 ~! [3 W, H; E, n
| 7 i1 C$ w' l; |4 h! [; H7 P
PFG |
* f$ w8 {" ?9 P9 V/ j K4 O: s, V2 Y$ ], P# x' k
Pulsed Gradient Field 脉冲梯度场 |
5 u I7 ~: ^% N. g+ I1 |. A- U+ w! [6 c+ s" K2 c
|
& Z8 w7 G6 |' q. v0 w6 e' p# _ PGSE | 9 ]$ B, e- z/ _& X" X6 W J0 g
/ O( j |: h+ R6 \# m; u9 t
Pulsed Gradient Spin Echo 脉冲梯度自旋回波 |
! b3 m8 w7 t8 S7 O5 o; a- z: @/ K5 b; Z4 y6 {: u3 D1 k
|
5 I9 V% U" c! `) D, V: R PRFT |
# }4 m( j( q: V% x
& K: W1 W# f; n3 I6 D& ^ i Partially Relaxed Fourier Transform 部分弛豫傅立叶变换 |
$ y$ v7 h/ m2 X+ \7 l: e2 H: T
& I0 y1 g, S& H| 3 {( A7 N: Q ]2 r( ^$ f
PSD |
' Q) u0 F% H! i, l# M! V& U* F. z+ s/ j+ b# x4 U: p
Phase-sensitive Detection 相敏检测 |
* m5 v) C2 R+ `6 I4 [; p! R
# H& T: V, ]4 s4 H2 }! d9 R( t/ T! q| 7 S7 u4 V* C9 L+ k% A, v
PW |
' r' G6 Q! w1 L- U
/ T- P4 l4 O9 G# Z* p5 z5 F Pulse Width 脉宽 |
}# Y/ _8 N \2 s. M% O/ J
9 C* e: S, n0 @1 F, m: e& v/ s| 4 d# s- ^% v# K2 H1 U: c& M
RCT | $ Y+ T9 X- s; d' r1 a
K* T3 l; L5 Y& c( M$ P4 n. {
Relayed Coherence Transfer 接力相干转移 |
& m3 g K) [% ~. Q7 ]8 X, _+ F& n: T5 q. c8 g1 a, [& l
|
+ r6 p, ?; l" F9 J$ O/ E* _* t RECSY | : Z* p0 {5 p( O* T( F/ p2 ~
I# x6 k( P% A6 g9 V4 D9 r# u5 P
Multistep Relayed Coherence Spectroscopy 多步接力相干谱 |
: U( x) H' a3 X4 u3 o, O
) f" d4 f& `" K0 I- R' \& K0 h| ; }; @% F7 X+ C: V. f: L1 H9 n+ w
REDOR |
. u: K" M- G' u+ P! Y/ W' c' ]" j8 j3 J; C4 A1 b
Rotational Echo Double Resonance 旋转回波双共振 |
+ P! E* z1 J3 v! X. E
4 J% B; n6 I5 V. I* R$ \5 ~& w|
; {# z+ O, z7 D/ x0 L RELAY | * t4 c6 y& N( g" _3 N) |* k/ I
/ e8 @: n! I+ L- l
Relayed Correlation Spectroscopy 接力相关谱 |
" K2 @- I4 u; Y$ c3 I' }& f$ h5 E
8 l9 M8 ?; l8 [; _0 `! W6 Y|
0 k2 z( ]7 C$ k9 ~6 ~6 }0 c RF |
* d" \2 e) b$ q) f, G* t; w
/ m9 Z* |! E) {, |6 B Radio Frequency 射频 |
8 x E7 j; b3 ]( B& g
5 x0 M, X8 r" F/ V|
* b3 d8 e2 h) X! U3 } ROESY | % B) ]+ H/ e0 ~ W9 f( B$ J
4 S; U# c/ _: F) A. M. P6 q/ n Rotating Frame Overhauser Effect Spectroscopy 旋转坐标系NOE谱 |
( \: ?* W8 q% M
& Q1 J: j/ e0 q7 Q- K7 T| % R, e+ ~* Y# ~% Q8 i* H) O, P4 J
ROTO | % q. a' M1 o9 u
; M; V z0 n: c' G6 x( p4 o
ROESY-TOCSY Relay ROESY-TOCSY 接力谱 |
1 i7 n3 A+ X( d; ^4 n k, f' K' \
" T# Y; ]/ K( p1 v$ F| 4 F$ X( p4 ~& u/ M* d
SC |
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Scalar Coupling 标量偶合 |
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; O' O1 z, `* u# ?3 \|
6 [$ H* p# j5 f0 ?+ q" D SDDS |
) H; Z% y6 y& R5 I. i8 r; w* e
~3 Y" [, f& [; y Spin Decoupling Difference Spectroscopy 自旋去偶差谱 |
) S+ Q1 }4 K8 A1 O' ^# ~
/ \, w9 q3 } ?6 a+ l/ y$ g2 K
| ; V; k* \; Q0 l- M! p/ ^; e5 }
SE |
& x& r e1 O! x/ W# R' M4 m+ Y+ D) B/ u+ y7 q% M2 ~1 {. \
Spin Echo 自旋回波 |
0 @) V( ^' R, M1 a5 y* p* z9 \0 W& ^7 L! H
| 2 d' e- x5 y- |. ?2 {1 {
SECSY | 3 ^% r) a5 v- g
& L9 k4 w! \" y' g/ V! p+ o
Spin-Echo Correlated Spectroscopy自旋回波相关谱 |
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& s) d& O' O; q5 d
|
# \4 O0 i% c' O- A3 E1 g1 `4 b SEDOR |
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, {* x$ u9 M$ m; G/ R) s3 {1 r) w Spin Echo Double Resonance 自旋回波双共振 |
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8 y& [! c6 Y* g|
+ x" s/ D; T+ K, Q e' a) n SEFT | ) H# y& b7 ^. O- I. P+ p" Y
4 k+ T, y8 B; j! `
Spin-Echo Fourier Transform Spectroscopy (with J modulation) (J-调制)自旋回波傅立叶变换谱 |
5 t2 p2 [0 ^% w+ j2 ^
, V" Z8 H2 g- Z2 ?7 a. a7 ]( R| 3 k3 q& Y' I; _& h N# k7 X
SELINCOR | 8 Q0 w3 |# n4 M- i; U
: H9 ^& |$ F% t1 t0 U8 q Selective Inverse Correlation 选择性反相关 |
9 Z) a- C% Y7 q) W: T5 y
o8 N( u, @; \! e|
' p8 {( H9 D6 N& Z SELINQUATE | . e. F2 A, Y7 \1 S% R/ ?, \
( w. o0 k8 i+ k
Selective INADEQUATE 选择性双量子(实验) |
7 Y9 \) Z- W$ Y: c
: E3 @, j' P+ t/ n: n. Z| * o3 Q' B6 w4 V$ a1 y2 D9 N3 z! u
SFORD | " x3 J- K- ~* V" ?: h
3 A0 y4 p/ o; ~$ S8 x5 w/ s Single Frequency Off-Resonance Decoupling 单频偏共振去偶 |
3 @- W+ B3 h6 J( X* [, a, v1 k$ V" r+ e p2 M
| / X% N& Y7 T/ ], M
SNR or S/N |
6 A3 j& }! e# b& C7 W1 ~8 T7 B) Z5 E2 e/ g& g
Signal-to-noise Ratio 信 / 燥比 |
! g! g7 Q8 B" O& p8 B, G* h. S( J
| . p. N P" P3 `$ x% ]9 x4 ~' O# C
SQF | 8 j9 R& j: d& p* p( ?/ i; Z
% s3 O( n" d- G6 T0 {5 X Single-Quantum Filter 单量子滤波 |
- f+ l% k/ R5 O- o$ s
3 j# U/ y5 t. k2 N' R| 7 k/ \" f Q& ~
SR |
# c! u2 [( k# K( J4 L) Q: A* r' [+ r# @
Saturation-Recovery 饱和恢复 |
: L' X) w5 V; v5 \% ]4 B/ i% d( S4 j4 s% w7 q% I
|
5 ~# F* L9 s+ j% b TCF | 7 h n5 S# t( f# R! r" C+ I$ s/ p
! B6 Z! n) I3 E) P. S4 @( j8 b Time Correlation Function 时间相关涵数 |
* o6 h% e8 L E1 r. a0 g6 ~# R S; n3 ^$ R3 i% v U6 y
| Z# |8 T' k3 {! V
TOCSY | . {1 j" y: y$ e* r8 G6 v% ]
& g& J. F! [( J8 z) j. F Total Correlation Spectroscopy 全(总)相关谱 |
% x/ Z& M: t; w9 B. o4 N+ z
4 M8 T( b$ ^5 I7 @| % i4 n [9 A( A1 h
TORO |
- a) w1 z2 f2 O0 H3 Q7 [
4 \# M, B' }8 Z9 H TOCSY-ROESY Relay TOCSY-ROESY接力 |
. f: X4 o8 c8 n0 `1 [/ K P6 K0 E& O! h8 e& r! Q
|
) [" U+ ~; M7 d. M( j" } TQF |
! K% _, q- w8 J
. L- M2 u% ]! _$ @9 X' n- O4 O! @ t Triple-Quantum Filter 三量子滤波 |
$ A+ _1 D1 j5 g8 R$ t+ d9 ?) R* B- A
|
, b2 b& F ]6 W! Q# ]' N, ? WALTZ-16 | 2 i# B# J n5 r* [9 }# d
8 i! K% A# W/ m! }% B2 R
A broadband decoupling sequence 宽带去偶序列 |
0 z8 ?' n. U9 Z; S: b
" K( ^6 n X" F' k$ G! G( O
|
; W0 L8 J0 n& H" S& ^# R- v5 w WATERGATE |
7 G" W: c. a( d# Z y, I1 h: l
Water suppression pulse sequence 水峰压制脉冲序列 |
* K, ~" }9 _9 {- `( ?0 C3 b
* B+ p2 c! d9 e9 ~0 S2 n
|
2 U0 F- T) P4 u WEFT |
) T! U# P. d ~7 n% Q4 l+ S- o. z; v% y2 t1 L3 R( {6 c7 X
Water Eliminated Fourier Transform 水峰消除傅立叶变换 |
. ^7 \. M! h+ C* t/ y% x+ D
1 u& o4 L+ D) B| 4 q% u ]8 x, e2 ~
ZQ(C) | 5 R. ^2 _5 m0 l3 R5 }$ d) U
) o8 w8 u8 j' z4 P! o |8 u Zero-Quantum (Coherence) 零量子相干 |
6 O" }) Y2 R. S8 @! ?
6 u, {3 `! o2 A( {0 W2 [/ H# T9 b3 ^/ u| / G# f1 l4 }- D1 ]' |
ZQF | 8 }! i2 y/ k, g1 U, k( C5 j7 k
) e$ {$ t, W0 u4 s: w: n Zero-Quantum Filter 零量子滤波 |
4 X6 j0 n1 _- R% p7 h) h& w7 V K# T# _5 f$ Q7 p% _- F# k$ c
|
' P/ z( ?& k! M$ z( k; H T1 |
2 Z4 j( T' ^1 _ F
# O. g, y& H3 u- p' d+ U Longitudinal (spin-lattice) relaxation time for MZ 纵向(自旋-晶格)弛豫时间 |
& r! p9 l: z' K3 L& p8 P$ D3 ?, i) C9 Z; W& \' [4 _/ l7 h
|
7 {4 G2 @# C' R- X T2 |
" Z# e& k) n- M( T! B" m% k) C' q) r- p$ k$ Y Q! `
Transverse (spin-spin) relaxation time for Mxy 横向(自旋-自旋)弛豫时间 |
1 ]3 k, x, j' O) p8 S$ [# q0 X6 `( K
| 7 a" t L% H$ J/ \1 P- V1 L
tm | . X/ T% X3 C9 p% Y; ]% {# t
: j1 Q+ u8 }/ { }) f
mixing time 混合时间 |
4 c# r6 O, G/ t) i! F5 ?8 c5 a5 a% O
7 }6 u5 R* ^( k) d0 G" j|
5 W2 Q, R; c. W4 ~ τc | 1 [1 A8 p* b- n+ Q' L" ^( H
# l |* Z: C {( J1 u
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
