7 @' y, |* X6 h0 \. V* Z2 p
! \) c' i+ S6 K$ s& e| ' P4 p3 e- {3 ]% l
APT |
9 |% r/ s( ~2 S g, m% ] P7 V# t5 Q, e
Attached Proton Test 质子连接实验 |
8 R0 \4 x5 n' W
- Q) i& T$ l* t8 {: T|
1 S. L1 P9 Y) L- L ASIS | 4 G! S4 O$ | X7 \4 g
- x* `1 @: \6 a \' w" g# ^
Aromatic Solvent Induced Shift 芳香溶剂诱导位移 |
/ ^6 S3 j2 z" K/ `: ~
7 J/ n% C" k: j4 n( e& K
|
! [* c$ ~: ~* O f8 ~6 E y: g BBDR |
# ?- O( F0 a8 F7 U
& [/ H& `& j- e: P& p- t/ \1 r+ Z Broad Band Double Resonance 宽带双共振 |
1 b' ^6 }# a2 [0 c
' _# r1 ~8 U9 K| , \6 C2 q; D; s% ` }
BIRD |
$ Z7 L3 Y2 _. N7 y, v) s; c
% |! ^ b5 a2 C1 G4 D Bilinear Rotation Decoupling 双线性旋转去偶(脉冲) |
/ c9 A, G9 V) E3 }, S6 l
6 [# M3 }0 T9 N3 O. Y8 U& H2 y| 7 F, j9 q' n* |0 _0 Q* y
COLOC | 7 F) `+ u( F# y/ D: `1 Z/ |
( I( i) p0 y8 S% ^ Correlated Spectroscopy for Long Range Coupling 远程偶合相关谱 |
& m- q" t8 y, p, G- j4 U) ]) G8 |9 a$ c9 g. l! E; m
| 7 s" K2 _* N8 C% Q2 t( p
COSY |
4 |8 A" ?5 g2 T8 w6 y1 j9 n
3 V# \5 |* d8 A+ g7 {6 y ( Homonuclear chemical shift ) COrrelation SpectroscopY (同核化学位移)相关谱 |
( o, a# }; a% s" Z* U/ ]: l
3 }1 j( L$ X4 B0 {' [| 2 g* t9 ?; T; D. T$ D1 m
CP | - ?/ [% j1 i/ B4 C: l
: q* C4 D( n2 l+ E. c Cross Polarization 交叉极化 |
4 s+ U4 [% C2 O; Y% c, e# N9 f8 j, U
; d% c8 M; f) p* P- M% W6 L' `& D; x|
! H' Y& n0 \5 E CP/MAS |
$ K0 F( {+ m. T0 O
/ ?0 v f: C0 J Cross Polarization / Magic Angle Spinning 交叉极化魔角自旋 |
2 F; D: ~. q$ a1 g. H5 n9 {7 d
% E* W: {; f; g5 l8 N; }% I) C4 p|
+ {+ B1 Y3 `9 U CSA | , k4 B( H7 `& O. x" y6 x; w' s
! B7 c( y4 ]- Z: l/ B
Chemical Shift Anisotropy 化学位移各向异性 |
' C8 e1 e) n6 _
' n7 S; ]- n8 i| . E/ {. y A4 \4 \7 y6 I0 B# j
CSCM | ) M9 V( {: v0 Q2 p: y1 B
+ `% |# j+ L/ [, d4 X Chemical Shift Correlation Map 化学位移相关图 |
! T2 w* z8 S5 r: \9 a. c6 D A0 B4 a# |" U0 O L
| 0 q9 g% _# I4 W
CW |
! _0 z. w, g7 C* N0 g
! { t1 N8 ^: N( K/ F: K+ Z9 N continuous wave 连续波 |
$ Z( U4 U* O2 D% s8 y
+ Y1 C9 s7 y0 p; I' i4 b2 L. F
| 0 ^: d" z& {9 T. \
DD |
; s9 ?4 q% r- I4 I& X! G8 a# b6 ]9 k0 ~& J& V
Dipole-Dipole 偶极-偶极 |
! E a/ g- f5 f2 t, d
( z( R: @6 G! {% x& Y0 F|
/ N; @. e2 u# y _! `+ W7 o8 W DECSY |
) V! V+ y4 D8 K8 @
5 N8 s, w$ O3 I; V3 r Double-quantum Echo Correlated Spectroscopy 双量子回波相关谱 |
0 z& _ n" z; j. L7 A1 P1 x- e& D! \4 H% R) L$ T ~! p H2 e# K$ @
|
5 a4 V# U& U6 Q2 ^ DEPT |
( c9 ~2 |2 C, G. N# u; X( V2 H, W
; L4 z3 U. ^$ }, ^! R Distortionless Enhancement by Polarization Transfer 无畸变极化转移增强 |
. `" L' H/ m# Z" `: B8 t; g
4 `$ G- c! r$ f) P, G9 f| 6 c0 M7 m( r. L& a" \3 Z" c/ E
2DFTS |
+ n, }0 Y. p( f' r2 p6 s
6 h, Z! x$ r& M two Dimensional FT Spectroscopy 二维傅立叶变换谱 |
, m0 C6 X9 ]9 r) C8 S! J- l4 K2 [* b3 M& _0 i
| 8 e8 |9 R8 d9 C: x
DNMR |
+ s- l/ Q+ c3 a% e: B( l* ?! o. J4 s G6 A7 z0 x
Dynamic NMR 动态NMR |
: g* ]. L0 k1 L+ C! B4 [( ]- K1 A
/ [* V0 I/ H+ g9 {2 P|
/ A, E6 g4 W8 o' P: e' a! @ DNP | / U) X4 P3 w }$ [
& t0 Z, _) X5 m- J' c' B
Dynamic Nuclear Polarization 动态核极化 |
* ~+ K: c+ l: }! ?* w0 Z
. {/ O" @9 [; b t' d( c6 a. b, Y" U|
/ }1 i- \/ q% B DQ(C) | # B; x0 I1 ?: ]! U! X- w
2 ^+ U% d8 F* @+ M5 J3 @$ w Double Quantum (Coherence) 双量子(相干) |
/ b% q, t; |% n% `- i2 U/ f5 a0 ]2 w9 `) s
| 3 f9 W9 r5 v% X5 P" Y# J, ?
DQD | : m7 {! G& Q; x% K6 g/ {# w
) W$ g0 }0 y$ @ Digital Quadrature Detection 数字正交检测 |
3 h& y4 r9 U( F; q
" p6 ]; V4 ]+ q& {( X: u|
% R- e2 O) M2 m$ I9 J DQF | " `) w$ b0 w+ d* g" O9 K w. `* X
2 i; f- ~8 m4 m" w. N$ S" e9 l
Double Quantum Filter 双量子滤波 |
. n/ Q$ w8 q/ @
) w' [: B7 s3 Q! t# d|
3 `7 @5 R" c' _& D# U6 Q2 ?" P DQF-COSY |
0 A4 m( G: L) U- h9 c( B3 W& [) v! f! i3 a
Double Quantum Filtered COSY 双量子滤波COSY |
: X+ e6 W1 _- u% a( E
9 ?: n2 }! o k2 || % x8 I5 [+ T# d8 |$ ^$ E% y
DRDS | ' b) J0 O. Q% T/ q1 U+ R9 j
5 Z) [1 a+ g5 i. Y- s# _& @7 a1 h
Double Resonance Difference Spectroscopy 双共振差谱 |
% b) ~. _; }9 h: q. `7 @, r/ Y) H# @3 Z* z+ L
|
: r2 h$ i9 A5 Y3 [ EXSY | a! N& v# _! Y9 Q# l
: ]3 N) K8 H/ I m$ Q* O. c+ K
Exchange Spectroscopy 交换谱 |
. G+ l5 L( v' P# R
, S$ l, `6 T/ {|
% l) q i) I2 |6 Z; l9 {0 Z FFT |
8 z$ O6 ?5 a6 n3 w, K( g* M, z
. [8 ?9 {3 M- Q4 n5 J5 v0 I; v& T Fast Fourier Transformation 快速傅立叶变换 |
) Z" O* e" ^6 F( ], [4 C6 F
6 i! C9 p& [4 p( L: f
|
! x/ @+ Q5 E9 q- X* o: c b& v FID |
/ `9 b1 @( _3 n8 r. H$ r% ?7 v0 Q: r* y+ g9 ~2 M B
Free Induction Decay 自由诱导衰减 |
$ i0 X$ G Q# {* g) S% o+ m- @! P; ~4 `5 H
|
$ T+ M2 W" t* D% f; \6 Q H,C-COSY |
/ j: e) L" v& |6 s
- c3 y. q& Y. _ 1H,13C chemical-shift COrrelation SpectroscopY 1H,13C化学位移相关谱 |
# p1 f3 [. x4 a0 D& ^* B; Q
; `& j; b7 [. S|
) z) t/ H3 t2 e& b+ Z1 W6 S H,X-COSY | 3 }. [" T A. e! w4 u
: w2 H1 u$ ?$ h6 I& D1 x) w+ T 1H,X-nucleus chemical-shift COrrelation SpectroscopY 1H,X-核化学位移相关谱 |
% @9 x' f8 s" E4 z# l4 r2 W6 G; I3 N a+ w6 s2 u8 r2 G
| ' g- k% [* D4 t+ H
HETCOR |
' \9 r) t- [& Y8 C
" n9 \* I. {. n6 j3 V Heteronuclear Correlation Spectroscopy 异核相关谱 |
; E9 L! C4 ~. B- O
" a: L1 M1 I" _0 n v
| 8 a' \, N" Y/ Y+ K- Z* S& n
HMBC |
4 A9 V$ U- J8 ]* R/ ^8 O
6 o( k) z, F% e1 C Heteronuclear Multiple-Bond Correlation 异核多键相关 |
6 {0 |0 k2 j' j6 ]+ J2 a
" }- r! \* \8 l& H
|
. r* n" H R7 K# f4 u HMQC | * e. e9 D7 G. l. P( X
+ {$ M" C' \7 r
Heteronuclear Multiple Quantum Coherence异核多量子相干 |
{% U/ o* y5 c" W _
& t# n4 T" A7 z$ L" d, \9 |& ~! h| * e. i9 K. f6 x2 E
HOESY | 2 Z" O! O" q0 x* E# \9 I
4 C$ |' v% k4 B; @- `2 C# _1 j
Heteronuclear Overhauser Effect Spectroscopy 异核Overhause效应谱 |
, e3 B. u7 d' |3 x" V& R; E3 I) d
2 G3 v. Q g; `: z7 L% o5 w|
/ ~* ]7 W5 i$ R; A I1 o HOHAHA |
+ }/ h, a k5 ]2 U/ S( W+ ~. @! d3 ^4 y
Homonuclear Hartmann-Hahn spectroscopy 同核Hartmann-Hahn谱 |
1 g3 X* N$ X# \, t4 U
+ L' I, A2 ]& C) ]: N8 O3 l; n| % \5 B) m1 U) p! R$ v" P
HR | 9 H& X* |% J; {5 U. }
* K; Y' w" J& \9 _8 f: {! J, ` High Resolution 高分辨 |
/ q* P1 q: p6 Z, [- y1 A8 j$ k" m" H% ~7 f) U2 j2 b
| 4 e& V: A2 o* z, O% `- h' J
HSQC |
! c- w/ X7 p7 L2 K/ A: I- F6 x; `: i8 ~/ F0 N, a- a9 c2 w
' m! }* D1 e0 \& }! A; z( g) ~
! u: @" G! x5 ~
" l* W4 \# w! ~
; ~3 x6 g7 [' R& J) j1 x: P| 1 {& x' X( |! ?- V6 r5 J* e
|
9 a/ O" c" H, l) G. W5 I0 XHeteronuclear Single Quantum Coherence 异核单量子相干 |
% Z0 i. C. j( t$ w
3 f0 h# O) `/ p' h/ I|
6 s9 O* t, x/ _/ j6 z0 p7 D INADEQUATE |
% K1 j9 p/ F7 h3 U7 | k
) B u* a; t6 X1 a 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) |
' ~0 M& F3 T2 Z+ k4 Q, p4 [) }4 I7 ^8 y& J9 h# r6 o1 L
|
0 H. u. l; y. U INDOR |
- D) ^) ]) x) R0 v0 ]# i2 v7 {
% b- K7 l) y& t Internuclear Double Resonance 核间双共振 |
, }+ P+ {, R9 \% [" f" H [4 l
( T; v3 L6 P" j/ @& D1 w" S3 C
|
, D# O: E8 i4 B( m/ v2 L& e INEPT |
" {% w3 S+ h) M' b4 m" I0 n, f# w6 P
Insensitive Nuclei Enhanced by Polarization 非灵敏核极化转移增强 |
: f2 j1 D9 i# v; b* \. P% r" a1 ]6 P; s( c
| , u* ]9 u3 {+ S
INVERSE |
3 c" Q) J0 j5 z' j+ |4 U" z p2 _$ V* o
/ X8 |5 Y; P3 o/ ?' E; M+ ? e# n H,X correlation via 1H detection 检测1H的H,X核相关 |
4 U# T; ~* Y( h3 ]4 g3 |
8 {# x" F+ I2 M+ Z2 x| , \. a* Z$ e. e, F
IR |
! b- U% ~: s% h8 r
) {8 u3 Q: a3 a, s Inversion-Recovery 反(翻)转回复 |
8 \' k7 L7 n* }1 z: v! z
% C# ?# @; D6 ^' J1 z7 A| 5 T0 V' b0 k" R3 v' G1 L( Q$ e
JRES |
+ }- t/ t& l/ m! w
3 O' t6 s# P# c! ~: a J-resolved spectroscopy J-分解谱 |
. H: p6 C9 i, { `' l
5 L( b: S V: G0 t, X! l6 q Y( ^| # d' o% o4 B/ V+ C
LIS |
; l6 ~" `8 R$ U. x' Z9 S9 O: a8 E+ I: `6 c7 P% ?% M
Lanthanide (chemical shift reagent ) Induced Shift 镧系(化学位移试剂)诱导位移 |
7 j/ n5 l: h8 U' l# {6 ^ Y k8 p" e5 |! J& \
|
/ ^" p, j5 @1 f2 s& q4 n K3 o LSR | ( S7 d, U' p8 z; i N i* J/ ?. }; O
7 H, k. @4 i3 q) d# D, V) `& S
Lanthanide Shift Reagent 镧系位移试剂 |
6 B( C; Q, T- T& y- Y) C8 t9 w) a) k2 R0 s- d3 _, [9 d2 c
| ) A4 {3 w: ?6 \9 c) X
MAS |
3 q$ e) E7 ^& C1 g1 |! ~( K
q7 x6 y4 y3 j0 O Magic-Angle Spinning 魔角自旋 |
6 c$ P. x2 ~( ^: L
. X$ o( {0 M$ h# ^
|
1 P9 z9 k6 {+ R3 h; \( s3 [ MQ(C) | 0 M6 C3 G6 A9 m" |. {
+ \: c) w: I- k* U( p% @7 c
Multiple-Quantum ( Coherence ) 多量子(相干) |
9 _4 V* k! O' y$ [6 ~
I) [4 Y* T# ?# {8 d( W
| % T& Q% v: n( v: \4 a* U! A6 J
MQF | 7 t& W: u8 T2 m/ q
2 ]: ?% G! G, O1 j# f
Multiple-Quantum Filter 多量子滤波 |
3 ~* J- B/ x" w D+ ~
( D, D: G) {2 D' D0 ^3 X5 |7 K|
0 H Q" j3 y5 w MQMAS |
- \' `3 t* i4 ]' e" q6 x: h
# n: X; O F/ S7 `1 [1 d+ v% m Multiple-Quantum Magic-Angle Spinning 多量子魔角自旋 |
# \7 b3 C; ^; x5 |6 Y8 k d2 |
& `3 l& T- _" |3 N4 j
|
3 S4 ^4 d' ^' |4 ~. S* r MQS | ' G, n$ O5 a& z' P9 e2 M! B
! E; ~. k& G; M( C
Multi Quantum Spectroscopy 多量子谱 |
! e" E; h* r" `+ D% {% `! P! y3 Q+ v1 C5 M' ~0 w7 P3 T! `# {
| : [! M; |: `# [4 ]1 B+ M% L
NMR | ! E% q& C; y0 e" X+ z- c+ q% |
" _9 Y, X1 s: ^) S/ S" o
Nuclear Magnetic Resonance 核磁共振 |
! Q0 x0 K. o6 j4 E
! X: R f% f/ h7 _! ~# R" J( ~
| / J0 \, X( m; h
NOE |
- |5 m+ g/ _6 |/ e' v5 s+ R1 I8 g' w. X) p" j+ j
Nuclear Overhauser Effect 核Overhauser效应(NOE) |
; x, B1 U8 H0 g! Z8 V$ P, g* l
- Y S' m- v+ `- X, x|
& t: c* `# f1 I ?2 i8 X NOESY |
( u- M3 q: b& w4 ]
3 O* z u" g- M; _( D6 S Nuclear Overhauser Effect Spectroscopy 二维NOE谱 |
5 I% c5 _ F( t. T
- ~* E" K" }! X# p& C7 G0 C|
3 m/ f3 I1 \1 Y$ Y NQR |
/ _/ d& i/ V3 ]& A& A, y. c* m h' F9 g5 a7 c) Q: c9 D
Nuclear Quadrupole Resonance 核四极共振 |
8 S: Y5 A, l6 @) p9 `
' x1 X3 s4 P8 F| % _' r! }( L* X' b5 h& _0 \
PFG | 1 A5 T- a0 P" x- K, T$ d2 m
- j( Q. q/ l$ F$ M# R5 c. f" C0 ~7 n
Pulsed Gradient Field 脉冲梯度场 |
( v5 X' e% l- x7 n/ b6 c" V1 M n7 X! t+ J* e1 u
|
/ R5 D3 c! M# n, |' A/ { PGSE |
8 F4 }6 ? w5 d" g- J
1 m8 k' I) s Q d% {4 @ Pulsed Gradient Spin Echo 脉冲梯度自旋回波 |
4 e9 i5 d) g' H, q; m9 W6 I9 j; I7 Z6 T9 c% s
| 4 ~8 L4 v. V$ j% t, r# i
PRFT | 9 }4 X- W) P3 b9 T9 s
; m) g$ w0 Y0 X4 r; S# l
Partially Relaxed Fourier Transform 部分弛豫傅立叶变换 |
' R7 T8 [# Q7 E# T8 x9 V% D4 p
' M1 i: I1 ^+ ~4 W
| 4 v9 I. Z+ R1 W8 C/ @. J* e
PSD |
/ Q3 G9 X; ^2 q' c2 Z {
6 |) `( o5 I% I4 | Phase-sensitive Detection 相敏检测 |
- q5 X9 D. J5 w" N9 T7 V* g; l/ i- x' b/ V- i4 b
| / E! p/ e8 l" X, ^* Q5 ^
PW | I# i# e" E1 R, L% I. ^# Q) G
& z$ x9 n, V Q3 B Pulse Width 脉宽 |
+ P& H) _: M% r, S
3 I9 _& ]5 l" k# j|
5 i; e% _" f+ |! C RCT |
+ R( N' g6 o1 ?, f! H: Z8 F8 z" e- _% Q; S# W1 l
Relayed Coherence Transfer 接力相干转移 |
) e; d) [, |" k
+ f+ z4 ]1 |% ~( s3 b% `6 f|
1 F: }2 H, ?1 q6 X RECSY | 3 _# u \5 `) V. C
3 U' P( s8 ]/ I7 [8 n6 ]
Multistep Relayed Coherence Spectroscopy 多步接力相干谱 |
6 S3 i+ C0 A. |! t7 O
% i. M0 N! m3 J' i/ s+ o|
# M" i6 J+ n% \" \; n2 F* s REDOR |
$ E4 G3 ~+ G4 Z8 V+ U0 \3 ^ v% p# O, E3 f+ w7 v Z
Rotational Echo Double Resonance 旋转回波双共振 |
7 P/ u& K7 R D
0 z U+ l% \/ r9 }4 T8 ?# L# N|
, t# L, f% V& F$ R4 z9 z" G RELAY | 4 M0 `3 c5 M- _$ a
/ X) P9 ]' Q. Q. e; ]& z+ W
Relayed Correlation Spectroscopy 接力相关谱 |
1 G- L) G6 l: F" Q9 @1 o, a
/ x3 ~* h& y; b5 k& \9 \. E
| 1 D1 X2 ~4 B- W0 I$ J
RF | 2 n/ P5 G& J* p) O" B I
: ], H: N0 J6 ^: L' f1 V Radio Frequency 射频 |
! V: \3 u$ {% X7 N3 O
7 S9 V& y* h' g# z| 4 e* \+ z% y& H4 r( m
ROESY |
, `7 Q4 q$ Y4 Z8 d) }$ \( g' h
( Y$ ~) F# R% r Rotating Frame Overhauser Effect Spectroscopy 旋转坐标系NOE谱 |
' v" P0 m" {/ v$ a: s t1 d4 ?- @
! o# H7 t9 I* W' U0 Q& p5 [|
3 h4 R9 }5 }: |# T: | ROTO |
& ?$ ?; p/ w! q R. e" ?: F/ s( F; V9 K* m+ N/ U, P, O% B
ROESY-TOCSY Relay ROESY-TOCSY 接力谱 |
$ O2 T2 _0 a( ]- p! c1 a
3 \" K/ S% g: x+ O
| , E0 j/ l/ B* W
SC | 0 g' e, S3 w: c. g5 Q0 f* ~
9 d! ~6 j" ]7 _9 x
Scalar Coupling 标量偶合 |
* d4 m+ F* u5 d# S9 x$ V9 |& P0 _1 c# y2 k& {
| $ N' |# h' ?, o8 @$ D: T
SDDS | L: E0 X* }# w8 _5 L
. R3 h4 f2 @- E. A
Spin Decoupling Difference Spectroscopy 自旋去偶差谱 |
$ D* \% t& r+ G9 X
a5 H5 l M. g, F& g' V| 0 _. @" p: l( b* A$ ?
SE | - y* c5 j& G2 L( D) W( ^% h
5 w1 P; N8 G# u6 H" `' f
Spin Echo 自旋回波 |
6 Q" Y4 ~+ H. f {( a
/ P+ H9 v5 N- i) W4 l" ]. W|
/ o& F' Y1 F- V( C; R. r& X! Z SECSY |
# j) |' k [- q. n, d' T& i) m" \" k/ N n& d1 l v- ^3 y
Spin-Echo Correlated Spectroscopy自旋回波相关谱 |
- A. H. T! K6 o" _1 M |7 M5 c
* n$ Q3 H6 W! r c H" F5 F; l
| & l1 ~+ t# v" @2 Y) X) r
SEDOR | _# S1 I; u* r1 `% U2 W) E l
/ l2 n+ \* \7 O" y" k Spin Echo Double Resonance 自旋回波双共振 |
8 M* J, b; q" \( v% y" k
$ o+ t! |5 a5 Y$ q, C|
0 A9 R( V" d4 f, P0 O1 P SEFT | ; F f: v3 O+ Y- |. U) ^- H7 w$ w+ U% |
. D0 Z. [% a3 q+ Z) ]9 J; `; \% w/ D% T% O Spin-Echo Fourier Transform Spectroscopy (with J modulation) (J-调制)自旋回波傅立叶变换谱 |
. m3 Y5 G! C- U
8 C+ X2 Y8 U7 E- {| ^! w1 T6 g# f; u6 P4 G
SELINCOR |
3 ~, S. r8 s4 g
# a( S ?7 Z2 a: b. F5 S Selective Inverse Correlation 选择性反相关 |
& S5 ~' N: O" M1 Q2 |
2 v# L2 {% z/ m" g/ B| 2 d8 q0 l# F4 J
SELINQUATE | ! P, J1 A5 p9 t/ ~6 Y
; e. T. Y2 N7 | S+ Y( t6 V- [ Selective INADEQUATE 选择性双量子(实验) |
$ F0 b; R9 u/ b" n- O0 y+ x
r9 x3 G& ?/ P|
2 |! o1 P) z9 w0 b+ m) ]; v SFORD | 1 x% t1 b; K& G/ V* ?
5 y' U( D4 W- z4 E! h4 u
Single Frequency Off-Resonance Decoupling 单频偏共振去偶 |
; N5 N7 c: X8 `
6 v- z$ N+ w1 ~' r6 j& f6 M| % }5 F. R& [9 q0 m, O' w
SNR or S/N |
) [5 W) Q! x- {/ Z. o8 }5 ~) J8 Q7 g) D/ v. W
Signal-to-noise Ratio 信 / 燥比 |
- J* X/ s# C5 d5 x, R1 b6 G
2 j0 T! Z8 Q: [% S* p' J/ l( z( K% v
| ' r; p0 m3 O7 Q
SQF | / l6 @4 F/ w( O A4 }
4 ]/ m5 b4 b0 K# x% i, s1 A Single-Quantum Filter 单量子滤波 |
6 a4 V( {1 }+ Z5 X! Y. }
) L1 y1 h7 l _$ z6 B0 N+ {4 h: ^. M" E|
6 o& W2 D3 n' y" O* ? SR |
! h. z, E! F: l9 k( {
# B" V; k, O: s. V- a Saturation-Recovery 饱和恢复 |
5 D% D) E/ e1 D; y
7 B- p$ ]/ I1 u; D| % a0 q) P% X4 q o: W4 ^
TCF |
6 \& C9 n+ q9 [1 E
( V% ~7 C& K. u" \- e9 [ Time Correlation Function 时间相关涵数 |
+ q- w% E# s+ L* i, i0 e* d
w3 O9 j, T) D, O& j/ S `0 k
| 3 Y$ A; a: j7 S1 g
TOCSY |
; v) Q4 z+ a: L2 s1 C9 h1 K" L
* a# A3 R1 G$ v0 x Total Correlation Spectroscopy 全(总)相关谱 |
, ]+ b( l1 O k7 G$ }8 @2 F
( j7 Z" }( D4 K| r' ^ r% V$ K ^3 C; [
TORO |
2 Q0 u- m, V) `6 I4 |# O, N% B0 y. h0 j
TOCSY-ROESY Relay TOCSY-ROESY接力 |
, `. n/ S' @- b
, f f; w$ W2 Q: g/ X. y
| ( z! F6 s0 p( A+ }; E [
TQF | , m" t9 G) P: q; T
. D% p2 Y. h+ l s: T! k Triple-Quantum Filter 三量子滤波 |
5 w' t6 Y, a$ O% O0 `" K6 [1 j4 {; ]# r" L" t( x, a" ^
| - ]& H6 {" G! V. u, N4 r
WALTZ-16 | 3 X# s1 r3 Q; u- A( ~
0 L# l, |% y4 k A broadband decoupling sequence 宽带去偶序列 |
t0 t1 d9 i, G
8 }- u }# n9 @& [- ^% x
| : ?, S" q5 O' C5 H5 K- G4 ~6 o
WATERGATE | 1 _- C9 g5 g2 Q X1 @9 W4 P
# s' [* f5 s1 z: y5 G Water suppression pulse sequence 水峰压制脉冲序列 |
& F/ \" |6 F h( e: [
# a* M5 N6 f& S8 p+ B| ) C* Q7 Y& O" s' _/ a. l
WEFT | 0 R q, v) G2 @" c: V# o8 d; g9 d7 j
: w- _0 Z4 O8 ^- w# s/ [1 w Water Eliminated Fourier Transform 水峰消除傅立叶变换 |
3 u+ k( q' f2 Q ? o7 I
; `7 m& y: A ^/ l) b% { K# u9 G* {( q
|
3 B$ ^, D) ^& V ZQ(C) |
2 x5 o& A+ _4 Y* T' O, C; p
7 q+ q( d4 m# ~. f Zero-Quantum (Coherence) 零量子相干 |
, H$ n* F Y( T6 e$ e E2 u' t
6 J5 d" X/ V: u) m| , w' A* i" l: I' P
ZQF | * y9 S6 @3 I* D. w
8 W8 }6 D- k f5 ~ Zero-Quantum Filter 零量子滤波 |
. } F% w# S* B- T# |/ N* Z* b7 q5 k, }9 C W9 Z+ E: w
|
7 r* e6 [, O% C/ ? T1 | 9 F* \2 p7 O# d N- e
" z3 \6 j" V4 Z6 m Longitudinal (spin-lattice) relaxation time for MZ 纵向(自旋-晶格)弛豫时间 |
: { q) R2 P; g I4 X: c& o- P0 M
$ X3 r: ?# N9 \, W|
- P8 ^. z! E! g1 j: T: x$ d T2 | * b7 J- N3 j8 m$ K4 K4 }) W! ]& k' ~
) o" q! E! W# \3 m Transverse (spin-spin) relaxation time for Mxy 横向(自旋-自旋)弛豫时间 |
Q6 |3 h+ z9 A2 @8 Y
( i$ R: C; b' r) h2 g% j C& {! o" K1 M
|
9 h- E" k7 G) q( o- L tm |
8 i+ _! a! z! C9 j- L1 w$ {- _7 e' @
mixing time 混合时间 |
4 E3 z" _+ m9 ^# V1 F4 J
! g3 y9 p6 i+ Y& w& a| $ e/ k- D5 F3 X2 U/ L% C
τc |
2 d" B, {+ l$ Z+ S# ^- R/ e
8 R; a0 P9 v( Z 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
