9 a2 f2 g1 Y$ b v
! x! V" S" z8 }8 E) w9 I! b! b| 2 f! k( j- {9 |5 a4 d& [% P# H
APT |
2 |# j, F' Y( J; t
8 v. {4 \& {/ {( ?" O s Attached Proton Test 质子连接实验 |
6 _8 m* F1 F1 Y0 s, A, r
# M: c" z6 X8 O2 C$ S, ~6 l
| 9 k U5 q' X) @9 a- M O4 H
ASIS | ( T' g! D( [+ e! V: I, ]- D! ]
$ y1 v/ Q K) \+ T4 B Aromatic Solvent Induced Shift 芳香溶剂诱导位移 |
6 R0 F. L Y, |+ \: }
1 ]2 g" \* s; X|
5 X& r$ g3 d, U3 c, [3 n BBDR |
9 a0 }! C$ C1 X9 f6 R8 v, P$ C! F' ?
Broad Band Double Resonance 宽带双共振 |
3 h6 k8 `- C4 o/ A$ r0 U' r3 u! _! f' G) Q4 p9 {
| ! M% A* r# Y# K
BIRD | 1 U! m7 H# `# f% W6 j, {* L
! E/ F5 N+ K: p5 C6 \# y Bilinear Rotation Decoupling 双线性旋转去偶(脉冲) |
5 y. q6 p; |9 J* x% C* h- G( U' q
' Y7 l B6 f$ ^, a- r& i
| " B5 ?, |7 N+ a9 X" f
COLOC | Z+ M+ E9 u+ K! q
/ ^4 [( P% o7 j; u9 e Correlated Spectroscopy for Long Range Coupling 远程偶合相关谱 |
3 Y' K# R& v4 n2 U& n
# h* i/ \# x/ s. f" H, ?: n: E| : _/ K0 h7 Q1 P' v
COSY |
|0 o W" V4 z+ r, M# O5 W; ?+ T5 L: O: Y+ c( x8 S3 A" ~/ A
( Homonuclear chemical shift ) COrrelation SpectroscopY (同核化学位移)相关谱 |
$ j( e$ R3 e0 T- c# T3 h
/ C9 b |7 {2 r9 V& n7 d| 9 k+ ?/ S3 R/ T3 ~3 b+ X( V
CP | ! l: f, b* ~; ^) B& v& S
% y0 x+ X+ W6 U: o: f: `% ?
Cross Polarization 交叉极化 |
K( V: I/ C* O8 a
3 u- i6 T& ~3 p( v0 C; H6 s7 m' V| & ^; ]1 q+ Z: s* ?
CP/MAS | # s8 a# M8 }& R8 T3 e2 q5 ~# ]
2 T6 m$ T5 E; T& @" n Cross Polarization / Magic Angle Spinning 交叉极化魔角自旋 |
# M. ~( y$ H0 ?! i U& Z1 q# `5 ?$ ]. J
4 Z, G* U/ v: a1 @* n3 X% a
|
4 i9 a2 ?& A- Y9 [6 s& s! b CSA |
6 U4 v- Z9 G0 z8 W2 O: a( H. k1 M
4 v h5 F7 r2 o! n Chemical Shift Anisotropy 化学位移各向异性 |
+ B. b- ~7 e/ n) K' E8 z+ h$ v, w j9 G4 k& u7 L# f2 f
| " L: T/ U& G+ C" t( S& M
CSCM |
. C/ W t% L( L0 u, C+ m& c3 n( j2 B7 x* b2 b$ O6 r
Chemical Shift Correlation Map 化学位移相关图 |
5 _3 p$ L& O9 y `2 U. P1 q! x% b5 V
6 S/ e$ i5 r8 l7 |3 m|
2 ]- n! d) C% Z. [6 p+ G' [ CW | ) d M6 Z& ], r% G/ ~1 V
& X% D: U& a2 s: J, _
continuous wave 连续波 |
7 ^" J0 E: L' b- V& G9 w
4 s# S4 o+ Y9 C* ?|
5 t% O% S. s: W: }& m DD | & y! ?% g; j! E m, K
1 E! {! p J, P# ? Dipole-Dipole 偶极-偶极 |
$ W4 q2 i& w. X3 P6 y) T4 P; x
0 R7 \& U7 |6 E. s( x| ' _; W. n4 V, T# ^2 P
DECSY |
, B* o- A' m3 [* Z) q0 I) R* b. o3 _/ P1 Y' O
Double-quantum Echo Correlated Spectroscopy 双量子回波相关谱 |
9 Z9 @' h4 j( d
3 @1 C/ h7 N4 L* d5 g|
0 z. x0 z/ t5 w+ h/ o' ]' C) T: r DEPT |
2 r/ W* Y% q, j2 B; F8 M1 ?4 C: W) C& H* W" c# G5 p( T
Distortionless Enhancement by Polarization Transfer 无畸变极化转移增强 |
8 C% S! S K1 j6 T6 \
% z% z3 e0 a/ `; z# V|
$ A1 P: E6 i* z' y/ N! q 2DFTS | % z5 Z7 V0 K; z6 W
' }3 ~) {) {1 Y! @: ]& A two Dimensional FT Spectroscopy 二维傅立叶变换谱 |
8 ]% [" K/ z+ ?# N+ h
7 I* R! D1 n$ d2 o
| 1 a; a" m# S4 O6 D8 D5 d
DNMR |
* }8 a% p: b% i! p! `& Y
+ i$ e8 \3 H- K( L Dynamic NMR 动态NMR |
1 r7 B J5 W% J# T8 E( j5 Z3 {! Q. h4 X# }- ?+ H q" a r2 ^+ B7 @
| 4 C9 {0 ?3 N7 o% c
DNP | & e7 v0 J( p: g# j- L/ J
" q; c! Y# S1 O- s2 |" S% Z Dynamic Nuclear Polarization 动态核极化 |
1 Q$ h1 E% J: L' H# i2 B! V# I* S/ ] w4 n0 N2 H$ L" J
| 9 m; r' d; R4 S `: B% R) Y6 z
DQ(C) |
3 A8 n9 W4 N+ Q4 a/ }$ m) u" g
* j! a1 @% {/ l" b" z9 X Double Quantum (Coherence) 双量子(相干) |
) k& ?: r' K$ R, G/ S4 L: L
( M. _4 i2 `" w
| % B: _% }6 F. C6 n7 e! E
DQD |
/ A1 B) S4 d& B* e+ Q5 c; H7 ^3 J5 K
Digital Quadrature Detection 数字正交检测 |
+ ?* i* u+ w# H0 q9 |0 I. Q9 q% i& ?! z% ^
|
6 Y+ g+ s1 e. _. {* i! s DQF | # }: u7 Q2 Q! t/ {/ g! C
; N' b: p" [/ q3 _ Double Quantum Filter 双量子滤波 |
- \+ B. R8 ^2 c# l+ Y0 R+ x( F) u
| 9 `0 _, i0 z; C8 W4 B) U( k/ b
DQF-COSY | ; G" a: C2 |3 f4 i3 a( e" A0 q
& R8 J" ^7 ~5 I/ m Double Quantum Filtered COSY 双量子滤波COSY |
/ h) F t( Y+ w8 c* E
! T% g' V- ` T4 v# D* e| % H' T+ ]& T9 u7 w) u/ e
DRDS | 9 l% m$ ~& A8 T+ a
; p% S9 j, H0 F8 h, a) |* J' W
Double Resonance Difference Spectroscopy 双共振差谱 |
4 F, J+ ~1 {+ a! Z! i- t2 H5 ?( C- X% c% ]6 K* q7 t s
| 7 B5 @. C, C- }* ]& U6 f
EXSY |
9 s# y9 q% Q& ]: Z
7 D; i: B3 q6 i7 F Exchange Spectroscopy 交换谱 |
: \5 j" e! C! c. T8 v1 I
' o: D$ A( P' Y) t& `| 5 S4 ?+ \# R. d! [
FFT | 0 _0 ]2 U% X5 O9 F8 ^+ {
5 A& F1 L$ W; ~( I# I2 C4 n; O
Fast Fourier Transformation 快速傅立叶变换 |
/ _$ w: \+ k% l- K3 ~1 E& Y
$ D& t. H/ Y: e9 i2 i| # o6 R' u+ f6 z% A7 Q
FID |
% o( ?4 U7 I& W- W+ k5 c2 o, `- w1 j) e7 u; l( n. q
Free Induction Decay 自由诱导衰减 |
5 F+ I9 H. P g2 y* f
4 b4 y( v, r( D3 @
| 1 L+ |( T) @/ i
H,C-COSY |
0 ?' S# e7 ]2 y$ B6 N4 I& ]- _ k. i. M7 W4 g- K+ l
1H,13C chemical-shift COrrelation SpectroscopY 1H,13C化学位移相关谱 |
2 ~' T; Q2 ^) f' c/ o. b* t% J9 ~" z# K6 J4 w
|
( z1 X4 _) k( g3 h9 i H,X-COSY | $ H5 Z0 y& s/ t' B
9 c7 N# `- ]9 u 1H,X-nucleus chemical-shift COrrelation SpectroscopY 1H,X-核化学位移相关谱 |
9 q. m; _+ p/ M l5 Y
2 r+ n% }6 Y7 v
|
2 Y0 j% N7 ]4 L" m3 N1 q; x7 X HETCOR |
0 s- b* B. h" R' p* h$ X1 N) ]! @/ ^; ?+ {: z( ^" u
Heteronuclear Correlation Spectroscopy 异核相关谱 |
, t( X5 i6 V: v0 W. ~: ?4 V' e
6 @) v) [# S+ c| 5 } E+ j9 } T7 L Y4 d4 |, D/ d
HMBC | + z5 s0 M/ {! |8 o
$ [) R" h' r- I: T; W: ? Heteronuclear Multiple-Bond Correlation 异核多键相关 |
- h$ f" @+ [ p% Z( D9 s
4 w. k3 L( I K' `/ G V|
1 V1 [6 v) Z" ?) ^: N9 K. ~ HMQC |
5 F1 A6 d) C# N) N% S2 ?5 @: r# \- o; G* L- Z+ I
Heteronuclear Multiple Quantum Coherence异核多量子相干 |
# L* q; I( l2 K3 f! J2 n
( t" J$ m& Q; Q# l| $ R h3 H0 }, Q+ R/ p+ G4 L; X
HOESY | : X) E: ~/ N2 E5 J! h# t
9 [5 B; r/ n7 J1 U$ c: E9 C. g
Heteronuclear Overhauser Effect Spectroscopy 异核Overhause效应谱 |
F! q8 q( N) ]$ `1 i7 R2 I( s d% U# w; F
|
% V9 g/ A9 L( Y1 F' F, H# G5 l HOHAHA |
3 Q, |1 z5 K6 K7 L0 _6 q' p
3 `5 V4 W. i: K ^' M Homonuclear Hartmann-Hahn spectroscopy 同核Hartmann-Hahn谱 |
* P9 g5 O6 B5 c L% _, e
6 ~+ E' \) p1 h1 b, \' ^| % P9 n0 n9 I- K7 z6 d# K: N
HR |
/ V. h/ P( C+ s# g$ I# M! M9 V6 s( y. U9 D: F
High Resolution 高分辨 |
% f( X" K& m/ L' _ f* J# o
# d8 R8 |+ G' I" h& ~9 _9 N
|
; H- |& ~ b# P; {1 P HSQC | # H! k, b2 w! k
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4 i" Y" Y( f8 H" T/ C- O
% K7 A8 e- a" z# q( N$ m) L# j# D
, T; X' d+ E" i& M' w. y; R4 J9 i7 E8 v3 R- N& N0 T. w5 ~; P/ L
| 6 f6 m9 t! G: Y, g( s
|
0 T9 r3 Q7 w2 a m+ c. RHeteronuclear Single Quantum Coherence 异核单量子相干 |
/ }( c* G: s' ^6 n; q7 c/ G6 R7 X/ }0 q4 K6 X! v" l
| o1 o- v4 o; w9 j$ u- c
INADEQUATE |
1 h/ H( W0 c' f) y/ {
' l5 e' d& ~- E 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) |
?* @$ I1 x9 }6 ~: `" F( C ^" A6 l" R0 h7 z! }
|
* @1 C; ^% _( h: D INDOR | 2 s$ Z( c, J) K
2 [1 g Z6 ~: u# E$ H, i
Internuclear Double Resonance 核间双共振 |
9 U I: A2 X9 C8 X# R3 r
/ U' w/ @+ l0 Y) v/ O j
|
3 H9 [0 `; l5 p6 T% j4 Y: d INEPT | ; ^: N/ V/ J3 f, C1 J7 f' v
( t& q5 f( B4 [7 T% P1 I% l$ Q3 S
Insensitive Nuclei Enhanced by Polarization 非灵敏核极化转移增强 |
. [7 {3 W+ P: Y8 n! ]
2 _* i% M9 p* t, B. F0 e| 9 [7 S, M) k. B
INVERSE |
: P: d( P2 W6 ~! v( z) [
" u- j) L; P4 m1 w0 x g5 B6 ]2 d H,X correlation via 1H detection 检测1H的H,X核相关 |
y( p! u, k6 [6 _
( n( K8 v3 X# P) }|
; i- Z5 V* }$ H" H0 e! e IR |
% E* \6 o4 ^9 j. l! M6 H
u8 G( z' c+ [5 t Inversion-Recovery 反(翻)转回复 |
( z* u2 @2 C, g' L6 y- X( \" a
8 Y9 T6 }& c2 k, T) }|
3 `3 B: y8 {4 Q7 I. L8 ] JRES |
0 j) Q. n* b$ V" D; N. g! W; \; E
# b3 L L8 \, _6 T J-resolved spectroscopy J-分解谱 |
% q9 L& H/ @2 E, @+ q- s. |$ |6 U9 \2 F7 l+ J" y
| , ^' L0 ]4 _) K" e, Z: O$ N) J; l- |
LIS |
! I- Q0 O) }% Q) m: g; Y
; m; Z4 M; g3 U+ c7 U1 Y' o' p Lanthanide (chemical shift reagent ) Induced Shift 镧系(化学位移试剂)诱导位移 |
+ p7 _# b, @8 f' i& ?
( M# B/ z/ _' c- E3 _0 c
| 3 o( t' K7 s) O0 w
LSR | 3 |- @4 X) _0 [5 R3 ^; K
! C% j1 y$ L: z5 D/ j8 w3 I8 L
Lanthanide Shift Reagent 镧系位移试剂 |
% A& q0 f4 e4 _0 F& s+ |: _4 }0 G: `1 w) W2 x( [
|
. I* d. @* n7 n! L' i, [) q. X( ` MAS | j( a. }# y! Y7 E
0 g5 R! l% [9 j% H/ e
Magic-Angle Spinning 魔角自旋 |
7 Y2 o- S0 g! }$ T6 U' J
5 F4 [9 t1 F4 |. `+ S8 ^3 K| 4 X/ }* s* ^: U V' N1 ~! {; W$ z
MQ(C) | 7 E0 i- u2 p$ M, j1 S+ @2 q2 r& Q: X
/ d e" M4 B+ B+ D9 z- ^# P
Multiple-Quantum ( Coherence ) 多量子(相干) |
# J5 D+ ?( T7 R* }. W( P9 o
5 {: m V% A2 N7 m| % ]- ~5 Y7 u1 P7 h; } c+ c
MQF | 2 H$ ~9 h- W' }/ { B$ n. s
+ J1 l5 W: K1 ]9 x* \+ T* | Multiple-Quantum Filter 多量子滤波 |
3 P0 i* S J! ?6 ~; q) b* R8 n- a
( I6 f! [5 Y/ R4 ~7 ^# _8 X+ }|
) c4 J4 L. o, t MQMAS | 7 N& U/ }9 C' X/ ~$ h7 R9 Y |
* L; a0 Z6 s% b& C( i; v3 { Multiple-Quantum Magic-Angle Spinning 多量子魔角自旋 |
7 {* p! R% t% T; G; g/ W" F
6 r8 p( H$ f) Z' {, b|
Z4 A j0 K7 L3 X+ r MQS |
5 D, E3 ]: f. D6 n2 ^( I/ O( [" x2 a! d& F
Multi Quantum Spectroscopy 多量子谱 |
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2 M& V* G3 x L! ^' {
|
0 }! _) f* H1 k* U+ y NMR | ( v4 w7 ]& G8 B: V9 P4 f, d
+ O9 X1 @3 L/ o$ j: { Nuclear Magnetic Resonance 核磁共振 |
4 Y" v/ d% ^3 ]5 U' Y" J0 U( A
: q% w- o7 Y2 Y/ s+ m, c; U v| ( X7 f( o1 l8 p! c7 |7 n
NOE | : J) U$ Q; N' B7 X( y, V
& ~ Z" K2 e5 C- n
Nuclear Overhauser Effect 核Overhauser效应(NOE) |
4 o7 d, J; q" y6 J1 _
1 J! z% S6 |9 m0 {| 6 ?6 Z- D3 y3 W
NOESY | 1 i; J* D/ U$ o" G% E
, P7 j& u- q2 q/ b. w Nuclear Overhauser Effect Spectroscopy 二维NOE谱 |
3 N' }( }$ }: O* V" k
' F: @, X* |& ?: X
| 8 g; B( j: P5 [% N
NQR | 0 G; P9 z0 D* [8 W/ `
+ e$ K6 [; S0 W Nuclear Quadrupole Resonance 核四极共振 |
) L) V/ z: |2 u5 Q5 ~
/ @& {. P" F+ v n+ ^% k2 f/ C% w
| 3 m0 N9 s# }; m# |4 }2 O
PFG |
7 l) g9 w4 `$ {+ |7 \' a- K$ i: a+ f0 b/ w) L
Pulsed Gradient Field 脉冲梯度场 |
2 N" m* z2 S% E- @: l' H
: ]7 I& V& T% G
| * \# X: o- r! W" U4 D! s/ C
PGSE | 5 P1 q: c E7 n5 q2 M4 g
9 d, S3 `: o* b$ R6 J% Z ^ Pulsed Gradient Spin Echo 脉冲梯度自旋回波 |
! U& U' Y9 M5 F3 y6 C9 T! y; v3 ?/ ?* `5 S& n: K
|
+ @& ?% @3 m1 V( d# P8 W( H; P& ` PRFT |
! Y1 ~- A/ H" x
4 B1 {/ ^- G1 I- a7 A5 ^ Partially Relaxed Fourier Transform 部分弛豫傅立叶变换 |
& S* l; m2 f. [1 g5 m- m2 i
" e. {6 U( s' A$ } z, \1 S|
% W1 ?7 [3 l. A3 o( @! d5 ~ ` PSD | * B) h+ O% l) P' ^4 f
- O w( O1 `( m8 W/ C1 d% ]
Phase-sensitive Detection 相敏检测 |
( L6 H4 x) t- B4 `+ N/ L3 ]' ]+ {* o
) B7 q. P, ~ M0 N! J% f, ?( P| 9 O; e7 z* u7 h0 i% t& y( W# g& u% i
PW | # {: r# F; A8 X! D _; g
0 R* t5 h- [% M# ?9 u Pulse Width 脉宽 |
% d7 }$ U0 m0 I# `( z* m
+ |. V6 p! t4 {' z
| 5 i8 \% ?! |4 J% ^! k
RCT | 9 `) k) N& }* Z: V
* z# j/ m( c' m
Relayed Coherence Transfer 接力相干转移 |
) K9 `: t4 e- {2 p- S
' i/ r0 w4 q7 C4 V2 }9 o% K|
/ @, Q) r0 O% }3 A) m7 ^ RECSY | . m. R' C7 w/ Z8 [3 u" L3 x
4 g" f* |0 ?1 k3 S* X$ N Multistep Relayed Coherence Spectroscopy 多步接力相干谱 |
4 { R8 Q% |- @* p6 R
E8 k, d, j! {' G* v: X% n m: u6 S2 L
|
+ Y" p8 s! I; R REDOR |
& c0 z9 H0 Q! s
6 w- a& L0 b8 M; k' [2 v* k2 F Rotational Echo Double Resonance 旋转回波双共振 |
2 v& b$ y7 ]5 I
% P F# Q1 E7 o$ G1 Z
| % H( r* w( r1 z
RELAY |
# b+ O+ \5 I, h. ]) E/ I. c2 C9 H
5 r% q {$ @, k, S" x Relayed Correlation Spectroscopy 接力相关谱 |
4 r% D$ p y, \
& }* k6 m% z( z$ j6 E
|
' h" k# a" ^& x; X% j+ P+ M RF |
% [# w7 Y4 F6 l6 e! {$ k2 v2 M! Z, a5 m, ^" y2 U; N2 h
Radio Frequency 射频 |
( |/ Z" T. ~6 L7 Y8 u4 U8 {5 d T( T# t! }
| " }/ h! p6 w: M( ]
ROESY | * o0 [/ `0 Q2 t; J; n( s+ {
+ l: M& J- C U, p& d5 s# @
Rotating Frame Overhauser Effect Spectroscopy 旋转坐标系NOE谱 |
9 R, H, ^& H: T; }1 {' `9 _% k5 ~2 k1 D% t0 x( k$ R% y, k
|
6 j- u0 U+ H" n8 } ROTO |
5 C% k5 S; f0 @3 V
% }8 k9 |/ C2 J2 l ROESY-TOCSY Relay ROESY-TOCSY 接力谱 |
. J. m8 `! \( ?
: S5 f3 C+ w# `| 3 M" ]8 o8 F8 T A: v
SC | : s9 I3 r& n' c7 u/ y
# @; w0 h S7 M( e0 P. O% M% {" p Scalar Coupling 标量偶合 |
/ K" X) Z/ |* c$ ^! l; J- H* g
' N% S# {8 \1 V! b- m6 [
| ; R i. h& k' g& O6 i+ [+ j! N
SDDS |
9 W {; a4 p) y9 S: Z0 m: Q9 `& O) G2 p3 y! _
Spin Decoupling Difference Spectroscopy 自旋去偶差谱 |
( ^# c e' M8 @3 ]: O4 v# C: o. h5 R5 \( C' R
|
# @3 K% G5 Z) X# Y% Z, E SE | 5 m: ?: f) d$ p7 p9 {
q) g9 e ]3 c" B
Spin Echo 自旋回波 |
, ~6 l$ b) q. ]8 ~
1 d+ M/ y" e4 ]! m" @! i! G|
: R% n' _2 a8 P* [9 u( O SECSY |
6 U8 a% A5 Q: w1 P
- u7 \, f" D* N Spin-Echo Correlated Spectroscopy自旋回波相关谱 |
9 ?4 N$ y( A) v7 G6 [5 L
: }% M& {2 J9 C4 E: L+ u|
$ c4 p; u& K/ K SEDOR |
& m* E. ^. D9 ^) o3 @
5 o( x2 k; X% w( ^/ [, ^$ m r Spin Echo Double Resonance 自旋回波双共振 |
u, r) O' M! S0 ]# q
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|
0 I$ ]7 {' V, i9 `& k: s& k SEFT |
2 y4 w$ a; p+ r2 V9 \( u% X, o& Z2 ~: ~
Spin-Echo Fourier Transform Spectroscopy (with J modulation) (J-调制)自旋回波傅立叶变换谱 |
; C# `6 P E" k4 P, _! J/ J2 S8 p" ]9 V& K' r; B7 T
|
7 z0 C4 P7 L4 M M7 V SELINCOR |
: g, y3 }, P, v9 I& W* `% w
, t: O! Z' r+ X$ g Selective Inverse Correlation 选择性反相关 |
6 k" k x( J9 y! `# p& q! `. D( {/ A7 \: w( p" h* \3 U
| 0 f2 V( P! P/ R6 B
SELINQUATE |
' U, P; N1 r1 g C. a9 i+ P. j4 d# ^4 W5 M1 s! {2 I; k+ @
Selective INADEQUATE 选择性双量子(实验) |
2 R! S% X& s: Q% a5 J# _ ?3 ?0 B$ C7 M# Y R
| , E! N4 T+ \% u6 m
SFORD | & G/ f3 n, j: u5 A# M4 s
# [1 O" A5 S( ?$ k/ N Single Frequency Off-Resonance Decoupling 单频偏共振去偶 |
1 i' r' Y6 m( |& N9 [; n) x* E, }( X6 [1 f2 Y. r2 d
|
) O- _- _9 o' n) G2 H SNR or S/N | - y5 U4 P$ M! f) c
: w+ W6 F7 w* e- J. u/ F Signal-to-noise Ratio 信 / 燥比 |
% e) ?9 H/ q7 y" j" N2 M
5 E8 u) w) J: z| " z) V; d. V; G0 t3 V {9 y4 E
SQF |
7 I! w! J. ] |2 ^0 E8 d" l7 _1 p% O$ ]' w7 q
Single-Quantum Filter 单量子滤波 |
- n3 R$ i* K3 a7 \9 N; ~4 b1 O" J$ [, q$ @# N
|
0 X4 x3 u' L) ]/ R SR | 4 v E/ s- B& Q i5 n
7 L, p: @; d8 o) {! x# B' \" L2 Q Saturation-Recovery 饱和恢复 |
" ]3 m+ R# K. i
6 y& J1 d# n5 I( ?* x3 y| & O4 O& K0 M+ r$ f5 v! i( s
TCF |
5 E9 e; Z7 F& J' E- b$ Q! V: h
1 b7 M5 k0 e' \, _ Time Correlation Function 时间相关涵数 |
4 r( D" l( {( i9 P7 h
9 j7 m! D1 W$ q- [
|
$ c! {8 D4 z6 I5 b( l TOCSY | / B1 k; k3 m2 T7 M% S
$ d3 E6 X( H( n/ f- l* ]2 a2 l8 c Total Correlation Spectroscopy 全(总)相关谱 |
0 |2 s# D- \* T# H
' L0 `& A' Q$ _. }2 o1 U+ |8 n) s|
! V7 p0 x- _5 i& ?' ^ TORO | ' @; H5 F( A% U
! _# m8 S4 ^3 I5 `7 z
TOCSY-ROESY Relay TOCSY-ROESY接力 |
h! W* A! I% Y: ~ u; P
. y" w, Q' M& \+ l% t|
: d, Y [! }2 z5 y' H TQF | + [5 s) W% w7 u, |1 b8 J
, R, o T9 t$ T Triple-Quantum Filter 三量子滤波 |
- h4 {/ l4 D- U7 N! t
0 o. z0 m. E. Y( S, o4 O& M| 3 N9 x. s. s. U0 a6 `
WALTZ-16 | 8 w% i. A0 D8 F% L6 O& {6 N7 |
( |- |. j6 D/ X A broadband decoupling sequence 宽带去偶序列 |
6 H! D8 L, g7 ], `; T: y8 \' Z2 O6 F. f0 k
|
/ c" r5 T6 o8 ]" v& B, i0 t, E WATERGATE |
" n* e- [ ^: A, |* s
' u: F& L/ }7 s4 U% _ Water suppression pulse sequence 水峰压制脉冲序列 |
0 Q: Q! ~# P9 ~' j5 Y
" j( d* f2 |7 Z# c* P# e| " q/ H2 W, e5 d( z9 E6 P
WEFT |
' A( z2 U3 x% D; P6 b" G: C( e( t" |
Water Eliminated Fourier Transform 水峰消除傅立叶变换 |
. J" q2 t4 W( Y8 ]; Z. k
2 N7 w* n5 C: t, F| $ K$ Z3 G3 a7 H6 v, H4 l
ZQ(C) | - i$ }7 W/ ]0 v9 O( S
% @+ m, J) A; I& I Zero-Quantum (Coherence) 零量子相干 |
2 R/ X* w# t8 x- r
: W# P7 Z% n1 v) _- E|
) D& H8 P2 Y- w3 u; b/ A+ c o0 \& \ E ZQF | R0 b% S: C( C6 `7 X
$ n6 e1 O$ q$ }! j Zero-Quantum Filter 零量子滤波 |
% }" ^. ?5 W0 v0 p. e, B
. ]9 a5 R. c& r: g d6 \|
2 K. j* z) M, M6 W7 E' a T1 |
! f# m1 a! e. f
+ J: d2 Z+ _3 h Longitudinal (spin-lattice) relaxation time for MZ 纵向(自旋-晶格)弛豫时间 |
) v% M6 C v0 l4 C% ] y
* b8 `# f) w$ J$ f2 L| . K, w+ F T) u7 L- p, E) J
T2 |
0 Y& X( B! ?6 {: {/ v( m- n" e& T3 {7 O- `3 F" t" Z; w
Transverse (spin-spin) relaxation time for Mxy 横向(自旋-自旋)弛豫时间 |
; v; P: E5 }7 @" \5 n n
. m1 M& Z. B. r7 ?, Z: G1 j* g, d| + t7 G5 Q3 v4 S8 t$ ~
tm |
. H G4 K1 a* J; w: d+ ^
* Y4 R' o6 J3 Y9 P mixing time 混合时间 |
7 y. H, R8 I8 o7 [. C) A% E0 X# O
Z: H6 T5 s! }' Y- G|
/ _/ t( N+ U/ y# g1 I# L( Z τc |
! |+ @5 \% [, ]* U
% C ^0 c% u e. E' X2 r% s 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
