. s) i) a5 t" r# o9 a3 x9 o! L
: S* q5 @9 i* g( }( M$ ^. d4 n| w0 n! M5 |4 r
APT | / p3 @1 m6 i& v3 o5 h) D
+ u8 w/ N9 ^+ w. t5 z Attached Proton Test 质子连接实验 |
6 b$ o( P5 a" `4 q& ~2 N- }% m1 Z6 U7 @4 e: `
|
: [5 d8 t7 o, X ASIS | 3 x5 E8 o, s, _( \6 O$ q1 N1 Z
% S, \4 j* W& @4 Z4 ^' Q9 r
Aromatic Solvent Induced Shift 芳香溶剂诱导位移 |
1 Y4 t8 }! Q$ T0 I! C( Z3 D9 }7 F6 l, l3 B9 V. J, s# Z5 B
| 7 k* V/ ^; k* J. Z9 }
BBDR | % l2 H2 F. R% q% {9 Z1 {5 d/ s
! ?* a; S1 N$ A. [ Broad Band Double Resonance 宽带双共振 |
/ T/ v6 S9 T m* m) K3 n# i) t# d
6 A% k. [2 N3 N+ u2 u* R9 W| 3 w& m C/ B- p1 x$ Y: ?
BIRD | - Y# B* u. H+ \( {
1 F6 D8 [8 b2 x" E. ^* m7 O
Bilinear Rotation Decoupling 双线性旋转去偶(脉冲) |
3 m0 M6 D: ?& w7 Y1 ]* @
! D& S4 M4 H. L7 I, \0 b! L/ L| # E( T2 ^2 Z# {8 F9 P
COLOC |
6 x' f/ e) k% p1 \0 ^0 l3 i, _
* ]/ X' R7 ^7 t9 V Correlated Spectroscopy for Long Range Coupling 远程偶合相关谱 |
4 C; O" ^ |3 V8 S. s# T4 B
3 U: E! q2 a, [. t- l- h+ \| # E0 Y# Q) o6 c) m+ k
COSY |
" p! j2 n3 V$ i7 Q' |4 B' B! o6 ^
2 {# K" B4 s/ X! s' g% X; \, u4 _ ( Homonuclear chemical shift ) COrrelation SpectroscopY (同核化学位移)相关谱 |
7 ^$ \; M$ b; @6 V* R7 g, n, {* V
" @: \/ o7 \8 J6 X0 J3 d& ^
|
0 m3 |. }+ r+ O% F4 q R( a% J CP | Q" x. @1 s @3 E: h
% h2 `3 U$ e. T! X( T7 T6 `
Cross Polarization 交叉极化 |
8 C6 z m) D* p% H- Q5 l9 O) x, v6 n4 ^" G' P6 t
|
5 X, V! z( {6 f3 u. X; R9 j CP/MAS |
, Z) A4 ]; F4 h v/ W
/ x( ^- x; P: i8 B$ J1 S( u Cross Polarization / Magic Angle Spinning 交叉极化魔角自旋 |
v( k C; q3 E4 J! Z/ B P; l
( X$ b, v9 j6 X+ s# L! h
| . N7 r* k1 {- b4 V+ @- F- ^
CSA |
! i9 P+ }6 \# T3 ` q% B2 p! Y( M) H+ X
Chemical Shift Anisotropy 化学位移各向异性 |
5 {: @0 \& t) }
+ g6 Q- b" G; o9 \ Y
| ; c9 X! P6 P) Y
CSCM |
8 w* g! \* j& E( u) e# a5 @3 y- _2 a7 c" z
Chemical Shift Correlation Map 化学位移相关图 |
6 u) z- `2 y" N( R
" ~3 n+ ^9 `0 @9 D" z|
7 V5 W: ]2 e, ]; I# E9 a. F5 U CW |
! I+ |2 p# h$ g/ q# J( G' ?% E* ]& k2 q- r: L3 J
continuous wave 连续波 |
! f0 W0 M% z: S, q" o: k v8 L( i2 Y8 h& T
| ; o$ a) ^" n! L- I
DD | 9 t- {6 }. ^! V6 } ~, ~/ g1 R; ^8 c
4 m; D6 I1 f- i2 g1 r" g1 f Dipole-Dipole 偶极-偶极 |
& d" y7 c- v$ c6 E. g
) T- |+ d* c, Z. |# R$ Q| 6 [. Y0 S& c' @
DECSY |
3 l# T% S6 P% O, S* R& k0 d$ H' E" t( K! i. i2 H K
Double-quantum Echo Correlated Spectroscopy 双量子回波相关谱 |
7 p) X1 B- g/ [4 j( I9 v# B) c/ a5 t+ N, |
| ; N V3 V3 ?" W D1 V3 f
DEPT |
0 {- e( i( d- p9 }" @- U- C+ m2 m- @
Distortionless Enhancement by Polarization Transfer 无畸变极化转移增强 |
; H, h& p" y3 N$ c; k) {, u
+ j ^7 \* W+ |8 g7 s
| . Z3 O5 i# Z1 u4 V
2DFTS |
) ^/ T% E% _: b0 u; i( s4 e/ x) W% w/ _7 j, |% I
two Dimensional FT Spectroscopy 二维傅立叶变换谱 |
; Q N! q0 K. |5 a0 C3 r T7 T7 S: T: S
| - o0 S: t- g$ w- s
DNMR |
$ X' u2 g3 G/ f9 T2 c! Q& \$ Z: z; ?0 {7 s% ?( `
Dynamic NMR 动态NMR |
4 g- \% b1 W7 W# F) G- E2 \
" g: w7 o" T( k3 @( I
| 8 t/ e. S: [1 E
DNP |
( z; g5 G( T: O# ?
: @. e6 I9 L& g Dynamic Nuclear Polarization 动态核极化 |
. b! q& h& S, J* g( f# n9 @7 ]
) }# n+ |7 w E8 n. s|
+ e# I$ s7 F& g% }; K( g6 y/ J DQ(C) | 5 P4 Q5 D0 K) g, W8 t7 D
" {' D4 S/ W, i8 ?, u$ n b% d
Double Quantum (Coherence) 双量子(相干) |
' b+ N7 Q4 j) N0 P0 L' v, e; ~
) x7 m+ C0 l0 c5 i! B5 |, W0 Y
|
2 z9 k5 B2 s! D$ I DQD | ( e+ @ Z9 E' W6 ~" H. a
0 p3 t; |5 o7 W2 @% [4 Q1 h/ y0 n Digital Quadrature Detection 数字正交检测 |
) o# x7 U4 o8 W9 A5 e8 o
" @3 X; J* ~; D* S0 o6 e( V" E|
7 o; j* E- u# `. S DQF |
6 m6 T+ {0 W3 |/ F0 f b0 R/ Q+ ^# [8 L" [: ~
Double Quantum Filter 双量子滤波 |
$ G+ b. O1 x; Z2 q) [; N1 o {
|
D2 b/ I# j+ Y* _1 a DQF-COSY | 9 T. {; l9 h) ]9 ?; r! u" I" h( e6 i
* f2 X& d! f6 U6 F
Double Quantum Filtered COSY 双量子滤波COSY |
+ `/ c, n& l, a7 h
# ]# H$ J0 {5 S- u+ r|
) H9 p4 M* W8 r7 f" r, w& ]% B) ? z DRDS |
3 Y' _1 b7 R# \: X
( \$ E) ]6 Q2 l- ^ Double Resonance Difference Spectroscopy 双共振差谱 |
7 X) o' _4 B3 z: K L
0 ?% l3 h" Y6 N
| * m) V1 T `, D& W" ^# a3 M
EXSY | ( ?+ y Q" f. \, O, X* X, P% y
/ n# Z+ |' [/ n( j" G Exchange Spectroscopy 交换谱 |
b' @% d' i' t
. d K- Z; E9 V6 }; q9 }
|
- G. M; {% k j- f% q" G g2 Q9 m FFT | % r, U6 ^% _7 f9 }! l* f& W
8 i C! T& W5 w0 W$ m Fast Fourier Transformation 快速傅立叶变换 |
. O6 Z' c1 K/ J
: s, j4 V; N/ a1 r; O0 W4 T|
; O/ b, ]/ H/ R; I$ e9 ? FID | 1 \7 @1 _" @- l- }1 S, H) J& p1 q2 }
1 ~" R8 D$ l2 T
Free Induction Decay 自由诱导衰减 |
: K' x* e+ Y' z) O' O8 t! l- B2 r9 U
% e) P8 s/ y7 _8 B6 x
| 1 U, H7 f$ ^/ O: z3 Q
H,C-COSY | ' @5 I6 G6 |0 \7 Y
5 H5 I, _( j* E" E
1H,13C chemical-shift COrrelation SpectroscopY 1H,13C化学位移相关谱 |
4 b0 f2 j9 o& O2 X4 v7 h. _4 B& Z) V. y6 R. Q$ a6 T" G
|
) N4 `1 q& J' a# H! M+ O H,X-COSY |
9 p$ S$ z0 p! {
: B d; `8 R' h4 ]( y* d! O& o" K 1H,X-nucleus chemical-shift COrrelation SpectroscopY 1H,X-核化学位移相关谱 |
; j) F( s6 e0 N8 s. o+ |/ K
! `8 B; a+ R- l& G; a
|
$ d5 p) A& t+ [2 \ HETCOR | $ q5 g3 H" _! M0 Z/ P
6 ?( k' k( j) u I5 R8 f7 q( e
Heteronuclear Correlation Spectroscopy 异核相关谱 |
4 X0 q4 {; W1 l! J# [3 |! `0 U# d* Y7 @9 W- b) S+ I% W& E
| 1 N6 t" }; c* I. v& y
HMBC | . P6 a4 M- D9 \( G2 P4 }: Y# @
1 Q9 r/ h8 }! N9 [# I+ {+ y
Heteronuclear Multiple-Bond Correlation 异核多键相关 |
1 ?: h$ F- m# ~
+ I% p1 j3 b( n9 x
|
4 m4 g$ ?" K' h HMQC |
4 K# M3 U& s7 f' f
3 I1 Y3 E3 \; V# [5 s) f Heteronuclear Multiple Quantum Coherence异核多量子相干 |
) F. _' R2 K5 w) ?- ~. _) \& B& j: _8 v' D2 t0 s
| " ?0 ? D8 C9 e! V1 r S' k) d0 q
HOESY | ! r4 a$ f9 x: }( J# n [
8 g4 s1 Y3 {4 @& K* N* C
Heteronuclear Overhauser Effect Spectroscopy 异核Overhause效应谱 |
; K) }+ z7 X1 @$ h ?
4 E; N; W1 S* o7 g' `8 o1 c| & H" S8 w% Q) N& T* j# K
HOHAHA |
! P: r' y5 c4 d/ b3 s# H
- \) ?! Z3 R, {6 i Homonuclear Hartmann-Hahn spectroscopy 同核Hartmann-Hahn谱 |
; _2 D2 X( c. R3 ?
5 \2 B1 i3 H: }0 \4 Y/ H3 Z7 p|
' l& Z z+ A: [* G% Y3 ]2 G HR |
. j M8 B8 v- J+ t: C
' _" o' @( P/ N( D B) e. h$ Z; B High Resolution 高分辨 |
) x8 X1 f& E0 F S
: s% X8 c+ n' ^# p; Z" T% O- b0 Q| 1 Z9 X) f' h9 B8 M. K3 q$ A
HSQC | 5 a- L6 b+ D& x3 l. ~, s
0 O) |+ A- {9 G& p) @# x n; C- N; v; F* y* B/ c
; ?; |' e8 S! [7 F0 u4 _: x S- Z# O; l% y
; a j7 t- O* M6 J0 E
|
2 K8 g0 M/ v. s8 B4 p" @% V( S |
3 M! g5 F' L. D! p1 ~$ wHeteronuclear Single Quantum Coherence 异核单量子相干 |
5 l+ ~4 s0 N9 o6 s) w7 s/ t% J3 z
, o: m, c- F$ L! _3 ~% ~% X+ Z- R4 A; H+ }|
: Y- S, ?. r' J H INADEQUATE |
, n: d Z; e- Q4 O4 }2 ~& ^2 C# l" u* {' N: w" k/ H( s: y1 k
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) |
' T3 L9 q9 n# t3 u4 \
4 e: I6 p: @+ ]% b| 1 x2 O% t# A9 H) q3 Q
INDOR |
% G T: g3 i- S1 y
; T5 X+ _1 u7 e S. l4 ?1 i+ S6 \- s Internuclear Double Resonance 核间双共振 |
& S' M1 }6 ^7 P# p
% \9 B8 P3 Z- K# Z/ K| & O' W. ~. [1 E
INEPT | 1 o. s2 J( X; s' ]1 \; q
5 E3 n6 } a6 E& X Y0 l+ }/ q Insensitive Nuclei Enhanced by Polarization 非灵敏核极化转移增强 |
# G/ y' {, I0 [) L' v
( W) O0 X0 e1 c# u, R# }( z) L|
$ T/ _/ ^. y. L/ J+ E% {8 M8 L& Q INVERSE | 3 Q" }/ a1 R6 t/ b8 v
6 t. V- s8 B- ?$ D! f; t+ l
H,X correlation via 1H detection 检测1H的H,X核相关 |
2 D7 `7 M& ^$ H u' J- D- y* H
2 D5 b9 H+ S3 z# N. j# N|
# W! }6 d g9 G. x IR | $ {" N& c- M, p" b# r1 f
6 ~& C7 O& q1 B6 W8 g' T Inversion-Recovery 反(翻)转回复 |
0 Q$ y' A+ K* x4 e
$ ^2 C& V9 n5 ~! w9 Q- |) B* y- M2 t| 8 T& s O0 \3 t3 E3 @ U7 q
JRES |
" @ c* k- u& Z, @% X5 p
0 p2 O* {/ i3 U7 l7 w: S4 V J-resolved spectroscopy J-分解谱 |
' B! K( @: P3 A7 r
5 k+ }, M5 L4 W4 q) Y|
3 x9 J y* k3 `& c; U# w LIS |
n5 ]+ \# q, ^: Z
7 m* V: {2 W1 H" N& t Lanthanide (chemical shift reagent ) Induced Shift 镧系(化学位移试剂)诱导位移 |
+ `; `5 I+ H2 }( J" j1 |* H1 K3 M( I3 [/ ^, H5 b9 o& S O
|
$ `# {" b* J- {6 _1 `8 ] LSR | 3 S6 m1 a) \! C5 j
, x1 D, `) x' Z1 g& r Y" q' R6 L% ] Lanthanide Shift Reagent 镧系位移试剂 |
/ j9 h0 i1 A. w3 G/ K" t3 Q9 k5 S5 I( I) [ H
| & l1 C! X/ l3 b0 X3 Y
MAS |
6 W- j1 r7 x" d4 i' |' K0 A* j" L9 j% _- r$ I
Magic-Angle Spinning 魔角自旋 |
E( n$ o j% e- ~5 s% ^, k
0 v. A* M1 H/ B/ C! ]6 T|
& U. w9 ]7 j } MQ(C) | $ Q" t2 S) x% G
5 P8 a* z3 {# B5 A$ o; i
Multiple-Quantum ( Coherence ) 多量子(相干) |
) [% l% }4 I% |+ J
( n- ~8 G" ]5 }/ Y2 K/ M
|
3 L" I. k9 c2 R' B1 ~ N- F" @7 n* k MQF | * Z2 f7 s4 p" c) p- s/ [
4 T4 l. g s% c, M6 {) y
Multiple-Quantum Filter 多量子滤波 |
. d/ ?# x* D# r! c1 O9 [& U
: k3 G2 P8 o: f& d; n6 W5 c. [7 q' d
|
' s' b: X! E" q3 `$ J4 k/ X' B; B MQMAS |
! }5 B. V5 C* o3 P* f9 J2 A- }( \9 a( C: O B/ X5 j1 W
Multiple-Quantum Magic-Angle Spinning 多量子魔角自旋 |
( h% M+ ~7 O, ^# _
$ ~1 a7 N+ u: I) r" o( c5 R. Y7 N| + o* b+ _: L5 J' `% a6 U" r7 m
MQS |
8 y( ~' X) y7 s# T# ?. \0 G: f. [# ?
Multi Quantum Spectroscopy 多量子谱 |
6 ?% m1 S, N5 F1 B6 @- T
) R0 n% r! Y6 j E
|
3 [' v2 [! ~0 K* [+ W+ P( M NMR |
' C/ a5 `" z5 D/ F; N, C$ m
& v2 e! A1 f* B5 R1 F Nuclear Magnetic Resonance 核磁共振 |
/ n9 I) S4 I/ }+ A0 M# L) m% n" z: R& |- N) o$ g2 w9 z
|
u0 C+ X5 x" {. {" i x NOE | / ~7 q' k* K% ~$ b2 V1 D f/ v
$ T) ^( Z, d) C& P$ J' F Nuclear Overhauser Effect 核Overhauser效应(NOE) |
4 }2 q8 _6 h" K7 p7 y8 ?
# J' C7 }& e; D. q# D| ' ?4 d7 e: R& ]2 L2 U; ]- K% X9 V
NOESY |
1 g- y g' y1 J& [9 S- F
) K6 g! V8 x) G- U" s& j3 W Nuclear Overhauser Effect Spectroscopy 二维NOE谱 |
' Q/ u( Z4 H& o! X" D
, ]! H) X" p' |0 j- N6 W
|
7 l9 [( `% J7 ]0 d NQR |
( G. U& a' y) P! ?/ r1 l( Z$ P2 f
: ]+ r$ R) U& O8 c5 I% q Nuclear Quadrupole Resonance 核四极共振 |
6 g3 F! Q/ m3 Z5 e" R& _
3 `. H' \3 \; P* R( ]: A4 z' U|
3 f% K- k# O3 n! ` PFG | . }0 R' W7 W( h! u8 P# e
3 L% v' k1 m9 W k7 n
Pulsed Gradient Field 脉冲梯度场 |
+ Y, S+ X# b& v5 G3 l+ h0 t8 p" l6 m9 b: _0 i
| 5 Y( B: \2 y# S$ d. z& t
PGSE | # ~1 \% _4 A) E
* ~9 C6 `2 q5 E7 x Pulsed Gradient Spin Echo 脉冲梯度自旋回波 |
m z7 h' j; W! F( G) P7 R5 `8 A9 ~
- J/ o' u; m% J" j- ]| ( H* m, i- T8 A- t6 [- p- M8 [4 c
PRFT | % ~3 G: m7 O, g
6 G9 F. Y' I. y Partially Relaxed Fourier Transform 部分弛豫傅立叶变换 |
( K8 _, g1 {* \% J* a: @$ c
! M) d* W+ ^* L| 8 Q) \; [# E$ ]; P p) q5 [% G
PSD | 0 W, q" c$ u. O( V3 y- I2 u
4 Z& l: U1 ] W) B9 V$ ^ Phase-sensitive Detection 相敏检测 |
8 T; @8 [% \9 z4 |9 c$ Q/ }. n
| & b. m7 S X, a$ V
PW | ' A$ b {0 [. _/ M
" z8 h2 V9 _, Z% s% |( H: i7 R+ s Pulse Width 脉宽 |
% n2 v: }! P2 \" U4 A
( |! B( r6 n, F4 I$ Z: l| U6 J* v! }) p+ m
RCT |
; B1 E7 \) x [2 L2 F4 S% S, R1 [# z
Relayed Coherence Transfer 接力相干转移 |
6 G) O' I4 h: {) w/ u
# ~; O; k+ z c% G1 K4 U| + ?- c" O d% I( N% @
RECSY |
5 o+ t5 C) @. D( R8 d( X' E" l' Z5 i( i3 q3 ~
Multistep Relayed Coherence Spectroscopy 多步接力相干谱 |
, y5 R. l N; M6 X
% F! G* w1 {& o$ N# O3 B5 X# v|
. n+ P) }' H& d+ f! Y: w& K$ n0 d+ c REDOR |
s% r7 r+ ^1 |' y
3 ~# E# }; x, P; y- V1 A Rotational Echo Double Resonance 旋转回波双共振 |
% I4 T5 v( N m
4 A+ f! @' J( z$ L|
" w, C0 O5 S& L+ P RELAY | 4 a r/ T, A# S
) `9 g+ L6 ?3 p$ l! S' s
Relayed Correlation Spectroscopy 接力相关谱 |
8 J9 E B2 G( a* I6 A( |0 L- F0 e; r% x. f% c: M6 x
| * F- ~" u$ b C( @5 t, o( D9 v4 a# m
RF | " f* x- p. }! _$ p' f6 I9 N
& d( R5 N6 @3 u6 O7 Y! d Radio Frequency 射频 |
+ |! ^% V2 v; Y& j
3 i' X1 s3 F$ ?1 V% F9 ~( l5 {& r1 a
| 0 H% B& N3 \4 u+ R6 ?, ]
ROESY | 5 |6 q" }, r, A! R
$ p0 A( _& r2 V8 h; e7 v7 U {/ ~ Rotating Frame Overhauser Effect Spectroscopy 旋转坐标系NOE谱 |
3 N( t2 a, K0 V2 N2 r% J
2 X9 D. L8 t( O| + B3 s7 }6 Q' o+ \! q9 h* y
ROTO | : z9 E+ z* x5 {1 U! D' Y/ r
( X8 ?. F$ {& p1 f. | ROESY-TOCSY Relay ROESY-TOCSY 接力谱 |
6 ]& S: e6 W8 |
% i) V8 s6 u; H3 k| 7 w+ f" c; _5 q+ X
SC |
' y5 _! J! R2 F4 z4 o( G* D
/ p7 J% Y& K7 M% ^" I4 ]1 I Scalar Coupling 标量偶合 |
( r" c7 Y; ~5 G- C+ s" ?
3 C8 S% K" \$ h: ^& r0 J| 8 Z0 q* U* t0 x* \; _
SDDS | 2 n R" D$ D1 ?2 a* g! m4 D, J5 \
' K3 j$ a# Q0 C; ?" q; C5 @. Z Spin Decoupling Difference Spectroscopy 自旋去偶差谱 |
, e u8 }) d3 p1 W! H7 |
3 \: U$ N: d4 i) k. m5 N. N& ^| 1 M: b) l O! p! q5 H7 Q
SE |
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8 V1 P6 p) X- O/ B1 V: }3 L$ r; c Spin Echo 自旋回波 |
8 ]7 l& e( t. g2 v5 J8 `
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SECSY |
1 k- ?0 s# X+ x' ~3 D7 i
+ X% f& ~& L& j7 ? Spin-Echo Correlated Spectroscopy自旋回波相关谱 |
2 ]5 b4 ~+ ?; {# P
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SEDOR |
1 L+ M7 `% C d F: [
$ {! G. D' M( @) y0 t' f0 B Spin Echo Double Resonance 自旋回波双共振 |
" Y- s+ r" l6 z }% \
6 y; T6 l3 v7 _8 _' j) R
| - k7 Y, a1 i, {; I; {$ Q
SEFT | H" ^: A3 N% m' J( \9 b
" t0 ]. g. d* c8 s2 ^3 A# X! l# N/ D3 x Spin-Echo Fourier Transform Spectroscopy (with J modulation) (J-调制)自旋回波傅立叶变换谱 |
: S$ D6 {* G# r! Y/ A/ e
% C H9 I' w6 c1 f, u| + E! K8 E& Q/ z+ X0 @
SELINCOR |
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Selective Inverse Correlation 选择性反相关 |
8 f; f+ V! \$ R
8 c% e: V. l6 D: ~ ^7 G6 f|
: n( e7 }3 `) @) o7 n& S$ e6 p) \ SELINQUATE |
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/ Z6 Z& Y. q/ n' A, A" [; y1 v U; _ Selective INADEQUATE 选择性双量子(实验) |
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2 M! X! D; S- k( q* r|
2 ]6 k- N0 K+ ^7 d1 ` SFORD |
' B% H( p: [2 _' r) A6 N+ |5 z4 K
* Z+ {' {3 p1 `& l! G) u Q1 w& z Single Frequency Off-Resonance Decoupling 单频偏共振去偶 |
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. n, R" q$ w& e% a* O' M SNR or S/N |
: T. u9 n7 }- F/ {& `
1 d8 m% [% f2 _ Signal-to-noise Ratio 信 / 燥比 |
# Z1 c! t/ L ]+ R4 }
) ~ J7 ~* I9 K
|
! l. d' h; m( O5 x* e9 K. V SQF | - o1 @! F/ L; p* ]
( @5 k: J! I7 T5 P0 } f
Single-Quantum Filter 单量子滤波 |
6 a! X: A( q& p" A
$ M! i" U G6 {. d) U1 g4 R|
3 s! e _" T! G8 [! V SR |
# T- O% m+ H( x: O
1 @( f% }8 F; R. a8 D1 ]3 x) r Saturation-Recovery 饱和恢复 |
' q! S, O" J( e( z* t% @
) A& r: O0 H" v K- n|
: D. o2 \1 O/ p# m3 [/ d2 q TCF | 7 T" U# U+ j& Z+ F( x+ l
' _* l/ v# Z7 A Time Correlation Function 时间相关涵数 |
1 w+ u- d8 @0 U3 F+ M( g% ^3 ~8 [& [: S$ a% ^; z+ R
|
- n/ T+ r3 g: @4 B- o3 P TOCSY | 0 s/ W4 y" {/ K3 N$ \% A
) w/ ^& I$ ]2 {+ P Total Correlation Spectroscopy 全(总)相关谱 |
3 j$ f6 d" F& `! e: v6 B
" L8 D+ y7 d! d; g5 L/ U$ C: L% s|
$ V. j; a5 |5 W% x TORO |
4 X' Q, Z, ` s8 Q, L- o2 O2 b- D, u7 V! ]) I0 d; k4 P
TOCSY-ROESY Relay TOCSY-ROESY接力 |
& l* R& r! P, o8 ^& _- i4 B
( b7 J: G6 e* e, m5 n! @- w
| ) L7 K# a0 f4 S0 _9 M9 S4 z' Z
TQF |
( A) V- C+ [5 a: Q# R/ A1 e; q6 a2 i2 I' y" ]) v
Triple-Quantum Filter 三量子滤波 |
4 R d7 r- V( c6 T: S5 c$ @) i9 j7 A
| # e$ J; {) k8 l' ~
WALTZ-16 | : ~' E7 Z n9 B4 K2 d
+ {/ \4 K# Q5 J# O3 X
A broadband decoupling sequence 宽带去偶序列 |
9 o1 ~" D3 j, O* W9 ~2 _
& f( x% m2 [+ K' \ G7 W- R$ }( f| 9 X$ I0 m6 j& _' M6 U% v
WATERGATE |
4 m; [! F) i) X- q% V9 B1 U3 `
Water suppression pulse sequence 水峰压制脉冲序列 |
' a4 ?+ v5 x& E" r4 y3 q
7 a3 ~- F7 E, @3 v& r) E6 @| % [0 R4 N0 V8 p9 Q* @
WEFT | 5 s/ M0 X3 p/ v( j, N; q
8 ~- U& H8 {0 D+ Z! v
Water Eliminated Fourier Transform 水峰消除傅立叶变换 |
! M2 v* t; s/ S" l! ]
* \# I0 ]- ]; u! y, q% ~" @|
% K8 }0 T8 G# b( t" E+ @2 m1 H1 Q3 ~ ZQ(C) | $ c% \& M; C! _9 U! P
0 U8 H" p7 v- | Zero-Quantum (Coherence) 零量子相干 |
4 ^, p( V; v! @6 E+ ^" \. D% c |: A* z. l% E/ y# b/ }- H
| / ^2 R! z' @2 `( j
ZQF |
' `" T6 @9 g m$ X% O9 `* M% x }; h/ t" A% M
Zero-Quantum Filter 零量子滤波 |
- F$ M8 C6 B+ {' n
, T/ }: }2 f- U0 q: d) a|
|9 E' i: ~) U) e; j T1 |
% h8 s3 }" o3 w( F, J. q' O" D1 K2 U
Longitudinal (spin-lattice) relaxation time for MZ 纵向(自旋-晶格)弛豫时间 |
' S8 @( f2 q/ \1 s( J
1 P; Q" Q) l) Y1 K8 n|
: f3 h- {3 }3 y2 t7 ? T2 | 3 ~/ Z% ?8 d4 b! U$ G( a/ l. P5 S
& b2 c- E% B- `( g% u' X# C
Transverse (spin-spin) relaxation time for Mxy 横向(自旋-自旋)弛豫时间 |
! `1 h5 q! e5 i0 W
: W4 A( p/ q/ @- \|
# |0 `" R5 {. B+ f; [/ j# J tm |
+ |6 Z# O5 ~4 H( a/ y1 S. |% @
+ T/ ?, C) ]7 } mixing time 混合时间 |
6 U% j" b4 v3 f3 U+ s
5 j/ }$ L3 t+ H3 ]( Z) }
|
3 G3 B6 D$ V, f9 G# q τc |
2 t" C1 ] n7 s$ E# Z9 _& O4 q& U
" {- i& M; k# t+ Z- P 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
