& ^, V0 f, R' Y7 q) `0 y0 F
o/ o3 R- E4 T% b| . _% J# T1 |; Y/ o$ u2 t- u4 u: X
APT | , @$ U, z) @; X
, @% S1 E' x; M6 p1 |
Attached Proton Test 质子连接实验 |
. r0 f9 s, w# [! N( X$ n
( I3 i( X% f! @1 N7 g7 a| " q1 U% w+ Z, {2 B: k* k/ H. }
ASIS |
4 m4 s4 y! w- O1 p
, k% L8 [+ x7 Z' p3 O' ^ Aromatic Solvent Induced Shift 芳香溶剂诱导位移 |
" C7 }* Q' A: I w, U$ Y
, w- d! }6 q8 r6 }- P' Q$ {
|
+ X; Y) c/ q# z2 F$ T BBDR |
% y8 H! i2 [3 y3 ~# l6 b) Y6 B) O5 A! h" {# ~+ D! u: t
Broad Band Double Resonance 宽带双共振 |
- C1 u/ D$ S7 r' d; k8 M, [: G9 u, n1 P' T: X+ q
|
, P! n% h8 B; n1 V3 c5 _* e3 V! o" V BIRD | , b1 E' s" G. ~% t
: m6 M% I R- H- y Bilinear Rotation Decoupling 双线性旋转去偶(脉冲) |
" N O0 {, X3 S
0 D, o% [. @0 ^8 U/ Q! t5 m|
3 Y0 T) [+ A+ L$ x9 F% W COLOC |
0 F4 k0 }' c, B$ ~9 w' u% U% v9 `$ {8 F' F3 f5 h
Correlated Spectroscopy for Long Range Coupling 远程偶合相关谱 |
9 I$ F, Q( b I" s+ A$ K( |( s$ a
) b0 T6 t( B1 K' B0 Q$ i* ]
| 8 ]& ]- [7 e W3 y- }: b
COSY |
3 o. _$ o0 Q" R, K3 v2 o! u
; z* b6 F/ ] e0 V& V. q3 l6 C% R ( Homonuclear chemical shift ) COrrelation SpectroscopY (同核化学位移)相关谱 |
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5 \+ I9 F( M3 c3 m% X7 t% t|
+ K0 H$ Y" r" {7 C, ]- M CP | 9 y0 x( i2 X* E6 J( f! g0 ^
" R' X% |6 A d, r, t/ x Cross Polarization 交叉极化 |
3 H% g v7 ~; Z. c, p. o& L
?9 `* z: m! R5 [: `4 m|
! F0 V; U5 v: Y$ m CP/MAS | 8 Y' |9 Q' d: o% i( z
0 ?8 m' F z6 W6 d! A Cross Polarization / Magic Angle Spinning 交叉极化魔角自旋 |
# M1 {9 m; x3 l; i
# v$ n7 k+ ~6 S7 f8 q
|
: ]. z2 T/ M& O* F) P CSA |
- M' q( ~% v( R) r/ ^
0 C# o4 t7 g; | Chemical Shift Anisotropy 化学位移各向异性 |
: | R- j& U% [# w3 {9 G1 e* q
, o3 B6 x X' r1 W( g- Q) z% D| 2 y: ~8 {2 _6 S( M% Z
CSCM |
$ j% z7 S6 B' t2 l1 L+ k0 K9 ^* o$ O/ y' d( U$ C6 P& a, A# E
Chemical Shift Correlation Map 化学位移相关图 |
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3 Q# B8 _2 U' u, I|
. m" _& \. \- q7 o4 M3 T CW | 4 c, o* @5 g) d& @$ B
5 J, F% j2 f+ l
continuous wave 连续波 |
+ h) b7 V2 f. a& L" G* h( P7 U6 D2 {7 r& R8 i
|
1 N5 J% k- A' n8 w. p) M2 s E DD |
) W) P1 s; j& C# |% c: z! @9 g: s5 a( [
Dipole-Dipole 偶极-偶极 |
$ z3 k' ^* w" h# i( |7 E0 v
5 O6 |/ r2 J- ~9 _|
: ]6 n! P5 r4 n- T DECSY | 1 Z T9 Q4 o$ ^/ R" U& l1 t
+ Y& }- {# S2 u3 W* ~; \
Double-quantum Echo Correlated Spectroscopy 双量子回波相关谱 |
- X- E4 ?, A8 O) B3 U: _$ K% S- v; f3 x- M* Y, B+ g/ `1 D
|
1 ]+ Q* w' O( ]0 q DEPT |
) G5 Z5 n2 X; t' a6 G: c- w- W k4 N8 z$ i t
Distortionless Enhancement by Polarization Transfer 无畸变极化转移增强 |
' x, c- O) l" d: r5 l1 O6 B3 A4 I6 i: \5 j/ }0 {
|
- Z. z( X Z, M) u; ]. w 2DFTS | * s' i6 U* b3 b1 p) C" M, t- b
- h4 Q5 v+ E" h2 ] two Dimensional FT Spectroscopy 二维傅立叶变换谱 |
+ M6 T7 _- y7 f4 V" H; V6 H/ v# {
V% V* o# F2 I& x+ P6 d; d) F|
. O, |6 K8 A# e% f DNMR |
' W/ A1 o5 r# M' k) I0 P% ^" D" U' g' s
: k, E; G5 F1 u+ i' f9 L7 y Dynamic NMR 动态NMR |
3 w6 }1 g. t6 U: i& E0 p2 y
. r- Y: p% H8 j, c/ k. ]2 m9 B n# w| 0 x9 x+ H- X' ~. U
DNP | ! A$ d: m4 A A: v; g& R5 L( U
& X% @$ z$ i9 p! z3 J Dynamic Nuclear Polarization 动态核极化 |
' w8 j# s" w4 S( p/ [. s
; A" m( s' q2 r: a) ~, s" P
| ' {2 `/ V# j% m* v
DQ(C) |
# Q0 D) [% n0 t: u3 q0 E6 L2 c# X7 h0 m, F! G
Double Quantum (Coherence) 双量子(相干) |
- B0 S* S/ ^' y2 b8 E
E1 `" |" o4 q4 b5 `% @| ; e. Z0 U/ P0 K+ y) i. t% O- u% S1 ~
DQD | ' S2 x: ]4 J. p
' ~4 M2 r* }7 V% u2 r9 v: L
Digital Quadrature Detection 数字正交检测 |
" g' i0 k' H: _- u+ N+ k6 {* B5 S
# A1 f. r# t1 a. M, j. x6 D- t! ]: \3 s|
7 V i0 s4 h. h# \' n+ w DQF | 1 T3 _1 p; C' `$ a0 |6 g/ {
' i. f& U6 H4 G' P' X- j% n0 o Double Quantum Filter 双量子滤波 |
3 H3 W3 y* Z& m; E
7 K! l) I3 U; K+ p|
& h* Z9 w$ W; p9 U DQF-COSY |
9 s2 ]* d4 K5 \5 Z$ Z+ P" q+ p4 n2 B9 Y4 }! a/ w3 ?6 v' L& g2 j: Y
Double Quantum Filtered COSY 双量子滤波COSY |
L) a ]2 w0 u9 A B
0 u4 q8 g! G- f|
7 Z) d b* S j7 p* [3 K: E DRDS |
6 m3 a0 w f+ \- L
# R2 \- x: f; L Double Resonance Difference Spectroscopy 双共振差谱 |
1 j/ _% N: K# j: A
0 N( [# D' L% S( l' P Y
| . ^! G- S( l% e8 h
EXSY |
+ Q' W* ]3 O8 D9 E5 D) w/ S
) f- e Z8 |5 Y8 {8 ` Exchange Spectroscopy 交换谱 |
* Q3 k0 ]5 b- B" B; e$ g0 E: t: X
( A* W6 R) T4 p" H( e* q
|
; B3 t/ u+ S4 g V8 ~ FFT | ; S) _# x% S0 O
, f( Q6 u4 Q9 e, a5 s6 b" `
Fast Fourier Transformation 快速傅立叶变换 |
( r$ x, D. u1 n1 S) h# u/ _) Y2 ~4 K) I: }- s8 l( v
| $ C( l' G6 ^$ p" i5 e+ I4 j
FID |
! E1 z5 I5 o( v P: _( @ c# M/ C2 C; {: [
Free Induction Decay 自由诱导衰减 |
$ H! W) g4 L! u/ V" [' E+ Z( u, e4 U6 s5 [
| o- @- T! V c: A5 \4 r
H,C-COSY | ; G4 X1 ^8 V8 J+ _- {% [
3 E* T) _- T( g/ r% L' P+ X 1H,13C chemical-shift COrrelation SpectroscopY 1H,13C化学位移相关谱 |
6 k: U6 w( q: t0 K
1 |9 A2 O* O# }0 }, z' r|
; L8 t/ y) Q, U" y% R' S D H,X-COSY | " i" N t6 o1 R; P' l E
0 H: E4 y0 o4 `' x3 O( z1 K 1H,X-nucleus chemical-shift COrrelation SpectroscopY 1H,X-核化学位移相关谱 |
$ w& Z3 R+ q$ X3 Z6 G, O# t
( [4 m: W) {) |2 p
| 0 u4 q& U, _! D3 @; y" I* `0 M! V
HETCOR | + F3 F8 b% y+ f' L
* Z8 l, o, c4 z5 F. v
Heteronuclear Correlation Spectroscopy 异核相关谱 |
. N6 U& R( S8 B0 b/ O; Z
/ a0 G+ s5 B( [4 n$ W7 T| * |$ S! W# W' o. u/ H" R9 G/ ]
HMBC |
- ]6 [; K5 g7 u A- ?' m' s# _/ Q' K5 T3 K# I& P. `* n( @
Heteronuclear Multiple-Bond Correlation 异核多键相关 |
) C- T4 E" `" |$ J: k9 ^$ ~' r( b i7 x3 y) j! n9 G5 z% m# X
| 0 v! d) C# o! E( g, i6 J
HMQC |
" b/ \' e( n0 g* j, ~- U1 K9 I, {' }. K% {" S( ?2 n
Heteronuclear Multiple Quantum Coherence异核多量子相干 |
* ~ {9 V1 w+ [& S6 g0 P f2 S4 Q- q+ @! E3 {
|
2 g4 S' l5 L' [) Z9 ?0 G2 \; |/ S HOESY | # J+ ? V" a6 r2 [6 Q
) A. p p8 S" n+ U Heteronuclear Overhauser Effect Spectroscopy 异核Overhause效应谱 |
. @3 m) L! i/ N1 @" L' o' W
! d0 U4 |/ k/ W
| + {& h5 h A' K3 T/ y
HOHAHA |
0 p: m8 S( J w9 r4 V* q9 Y+ H% w- }; j$ }! @4 h) D5 P8 M. j
Homonuclear Hartmann-Hahn spectroscopy 同核Hartmann-Hahn谱 |
8 g* J \) {: X; Y$ w
9 c* x6 n" j" @5 o7 s! w' c' ~|
9 Z6 E) ? \, \9 n4 Z! P HR |
$ o9 p5 {. k; {3 }. c. @
/ f" i# W! y' L; x: x, Y High Resolution 高分辨 |
" M) @. t' I, |: ~
. v6 F, {7 j; l
| " a: {# m! A3 Z: J; n/ n
HSQC |
6 c! A2 Z& m! n$ l6 x+ ]
; t8 ?$ u( A: X* F) y& h/ T' N" i$ k& R H7 t& ?4 a. i
2 z8 ^) _7 d( n! c
+ J: i8 M. p# \" |2 Z- V
& k8 Z3 j w5 j u|
: P ]8 Q7 w2 Z( ^% B8 G8 c. U | ) Y# Z: \% \9 y: E7 M* l
Heteronuclear Single Quantum Coherence 异核单量子相干 |
- H* @: L5 J1 D' w! z
% n4 K$ A! H, _) [# h0 _
|
- o& O3 u/ [# i" U8 A INADEQUATE | 3 |5 o1 X7 K' u. u; V: {% q
7 e6 {1 ^+ x5 v V
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) |
) x, k$ Q& M) W* N1 v% r9 x
2 r+ z' s( o2 g3 P; Z& T
|
+ o8 c7 c8 J) {, t INDOR |
& F0 O- A# _0 K$ }5 r0 A0 ] q/ @. T7 F$ a; `# ]
Internuclear Double Resonance 核间双共振 |
/ b: c5 K4 c2 O @8 V" ]9 U# ~- U5 A6 c9 B0 j
|
$ s5 ?8 x T5 y6 C8 T- P INEPT | $ A3 f7 P" ]% v/ s; `9 z
o. R r( Y! W5 `2 C Insensitive Nuclei Enhanced by Polarization 非灵敏核极化转移增强 |
) y2 ?1 b/ ^6 X. q
. s" Y& q( g# ^6 a* }9 x$ t0 r" C|
2 W& t4 z6 N% m. p; [- s, } INVERSE |
$ @, T9 t0 f+ \ v! i4 M; ` y4 C
: k4 W9 I3 T% n' d v* c H,X correlation via 1H detection 检测1H的H,X核相关 |
; F# W0 h5 y8 L5 H( B" ~! v; w1 z! I
|
2 p0 h6 }/ O" w% m5 @' B @ IR |
$ U. x4 l/ F: [* m! J
+ e9 P4 E0 q3 U5 t0 _) k$ j Inversion-Recovery 反(翻)转回复 |
" {! B' D5 E: q2 L+ v
6 x- x. G$ G" ~. c|
8 ?8 q: A, [8 R/ T0 ] JRES | , w% \& a e% C1 s
$ v+ F9 k. {" [ l: I J-resolved spectroscopy J-分解谱 |
3 Y0 x$ e. x. C4 {* h
! d6 D" Q$ j, n|
' G7 y+ w, B8 s! |% E LIS |
' Q5 i. z' m+ }& b: w ]- M' V( J. a' I& J
Lanthanide (chemical shift reagent ) Induced Shift 镧系(化学位移试剂)诱导位移 |
. Q3 I/ W9 \- l& V6 P
. Z, D& \5 j1 H: ?9 E$ v3 F|
1 W2 _( M- W; Y3 g3 X LSR | 8 s3 z |( H j
4 O$ C8 v7 N" W8 z+ y; n' v
Lanthanide Shift Reagent 镧系位移试剂 |
4 t l2 s/ i1 m
8 H4 I3 X+ N7 Z# k6 C: J! Z
|
1 D% ~. g3 j" [3 B MAS | + _2 G. |" H9 h' {
; f( W* I4 o3 N9 f9 N Magic-Angle Spinning 魔角自旋 |
6 m( A* N% F5 q, p/ w( f9 `
2 a! S' O- ~. s; Z4 K
| ) J8 H$ b8 g9 U+ A* b- Z* X
MQ(C) |
9 n4 c2 |3 W: I }; O2 z
5 B# t* I, |% y Multiple-Quantum ( Coherence ) 多量子(相干) |
& v r0 k( ^" c6 k/ T) u
3 \$ A7 |1 A4 u* L' z|
# ]. y6 ]2 J: V- X MQF | 4 n% F3 |" U9 W) }; p5 m' _+ M( N
- ?% | R, A* x
Multiple-Quantum Filter 多量子滤波 |
; Q% g- j4 k, F7 F o7 Q/ l
L9 {+ k0 A$ Z5 R| 6 M$ S# {/ m; S1 K/ B( r( i/ V( h
MQMAS | : b' [$ ~# t4 M( H$ ?$ O- W
& G$ C" U7 f% I3 Y
Multiple-Quantum Magic-Angle Spinning 多量子魔角自旋 |
6 o) g: }4 ~$ g4 R: F- D. H9 K1 z
( a- O9 ~* _6 R/ a" K6 `" {: {|
% g0 G! @$ i3 M- l b$ w MQS | 5 k$ T* w ]4 ^( f3 w
8 d7 E6 x+ E0 L# C, ^& {& A4 b4 y
Multi Quantum Spectroscopy 多量子谱 |
8 y6 A0 J& x% X0 n+ d' s) S
8 y6 l& |2 s& W% M7 D3 u1 h. j|
. n2 ?. ^ ` [( Y! P NMR | ! m' s8 m! N; v, w: ^. s& z" l
& L) Z0 I4 ?3 z; L& x Nuclear Magnetic Resonance 核磁共振 |
9 f/ @( o v# ^3 j0 }- [% J
5 @4 e5 e. O6 ~( m|
- T& h, V& r# t6 H! R, e2 H& a NOE |
$ a- F- p% l& v4 N; f. N' y5 S! [
Nuclear Overhauser Effect 核Overhauser效应(NOE) |
. @( e6 ` M* E0 D1 c
8 `8 x) l$ F; l) I! C# ^, _|
, T, E- o0 H7 t NOESY | ; P, Z. j; u9 A0 a6 K# R, J
! t% v7 a, R5 P" k& h6 j1 I! K Nuclear Overhauser Effect Spectroscopy 二维NOE谱 |
1 K4 y+ ` e5 u/ I$ r3 m9 V
: Z% L8 D" t; N7 s4 M1 I|
2 A* x6 _% c" O& C NQR |
, W4 L5 K, t! q) \# }( E- o! \6 j, _% k6 o4 h
Nuclear Quadrupole Resonance 核四极共振 |
" V# z: {( H; ], [) m& Y
$ D1 Z) w' L( _4 Y$ c& B
|
+ T7 v7 p! B; \2 i! m0 v2 \ PFG |
8 o' S9 e, C w
5 T; G6 Y! H/ J( A3 T3 e d6 ? Pulsed Gradient Field 脉冲梯度场 |
/ z0 Q$ [+ n$ q/ N* ?! a' U7 b7 v2 L# R) W; @$ x/ x8 A8 v5 [
|
& I. e4 t) ^) v, F, `4 C PGSE | 2 Y6 S* s2 ?+ n- q$ r
; m' z, U: l% V. s9 H Pulsed Gradient Spin Echo 脉冲梯度自旋回波 |
8 l7 l. l5 ^* I4 o: x: C
* w: Z0 t0 V: _2 L _| 0 U. X+ J# @5 X' R
PRFT |
+ m: b! C2 g' F1 p$ X
, ^8 x# `# G$ t- a* l Partially Relaxed Fourier Transform 部分弛豫傅立叶变换 |
! h6 Z0 W* {1 j9 r4 u
2 f$ c" U- a4 I R {1 L+ L|
5 A v, f7 s& c PSD |
, ~3 B, x8 D$ v/ b! Y* s# @
5 S- v/ X2 T( S; M; [: I4 l Phase-sensitive Detection 相敏检测 |
. B8 r! r% y# }5 T
# ]# v# t& k* p2 ]) n! C0 j| 7 C8 {3 }) D5 R3 ^9 j
PW |
" W5 C1 k; C1 l5 A+ g8 ~
0 a4 @* k; I( M+ [: ^+ v5 v1 C, S Pulse Width 脉宽 |
) ^$ {& p) n+ _9 [3 \+ s
$ p0 O) n: C: X/ e0 ~( ]1 _8 i|
% F2 a Z: u S5 e RCT | * c& v. `! y: w( z# O+ z
3 d$ e! T( ~# e7 e Relayed Coherence Transfer 接力相干转移 |
1 a: ~1 y. ?& b {% O. |5 D# y0 e) Z
| % [7 f5 W L0 ^+ u! O) I0 T3 v
RECSY |
& \ \ g6 H7 y9 V1 I
% Z5 F# A( q% }5 z# [4 x Multistep Relayed Coherence Spectroscopy 多步接力相干谱 |
4 L( W4 h' u* x% L4 g" o3 G: b6 \0 L8 Y5 [$ H- \0 Z x2 x5 p) {$ ^+ V
|
& f6 |) K: ]3 l ` REDOR | ( I7 C- Z: j' ^. _2 l
; g% I; Z) F% ?8 _7 h* I; W Rotational Echo Double Resonance 旋转回波双共振 |
' E* A! `7 v/ Z
) \( l- [. ]3 E- }+ [|
% F* K4 J9 m$ A7 `0 w# ]8 C& E0 ` RELAY | j0 l/ l) C) ~9 i9 w2 ^
4 k, d% P- B; F/ {) S# f* w Relayed Correlation Spectroscopy 接力相关谱 |
8 ]$ W1 Z2 l* b4 ?* m5 | R/ S9 q- h' r
|
2 X; A0 j7 n2 K5 a% w RF | ! R' c& F: A6 \1 S j' `
3 R( `/ L' p/ V; Y
Radio Frequency 射频 |
/ A6 c; F- Z- M" S' J& p8 m. X1 f
, Y# x6 y7 l6 }6 _| 7 q9 H+ _$ Q( l% B8 Y" B4 e' j
ROESY | + m N0 C8 p% \( w/ n
: t8 Z2 h7 p( b, v' z* ?: s" ?
Rotating Frame Overhauser Effect Spectroscopy 旋转坐标系NOE谱 |
; ?! O4 u5 u8 t* x6 e! k& d5 ?3 e& E$ R" O/ J0 c- `8 M: {/ I
|
6 X: [ `0 B3 U, S" Q ROTO | ( J% S, N+ Y) u0 x6 n
" l/ B; V7 Z* j4 i ROESY-TOCSY Relay ROESY-TOCSY 接力谱 |
& P3 U8 N; z; E1 |0 d
; B$ O3 r' l3 A+ ]
|
" M0 H' @! J3 |# b SC | ' H; V5 q# _( y
' Z `) p( u7 U, J- ?6 b Scalar Coupling 标量偶合 |
& e1 R. H, ~) H, A2 R3 E y5 Q6 P3 B6 g) J+ B
| ' L( V5 ~9 M$ W l; d
SDDS | 0 {' ^* W- L2 _" P3 t6 g0 H
( @9 h8 K+ F7 Y7 l0 j Spin Decoupling Difference Spectroscopy 自旋去偶差谱 |
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- t) [4 }, T- k|
0 U$ m$ ?2 Y/ w) ^ SE |
: ~3 q" Y" n: g' j2 h& m4 D; v: c3 w1 }
Spin Echo 自旋回波 |
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| , d6 r9 J( g# I' O$ ]9 a4 F$ e
SECSY |
' D# v, L: L E& H" R$ A/ `; [: m, j& l$ E7 c: z: b! i- Z
Spin-Echo Correlated Spectroscopy自旋回波相关谱 |
- b w# E: Y% F
9 j$ |, Q- h: r7 m2 M: B0 s| ) z3 @7 a( e, d& l. e9 H* L/ Z
SEDOR |
: v0 C( R& v* ]! e
& L U. V! f$ k8 u Z1 ` Spin Echo Double Resonance 自旋回波双共振 |
' K. s" ^5 n4 j( d1 o8 J3 m' d1 z0 e+ y2 ^0 e) h, U
| 2 q6 n* Z8 h: d1 w! V
SEFT |
5 C* D, A5 r* R+ }) D/ D9 T! Q, ~) O" }& ?
Spin-Echo Fourier Transform Spectroscopy (with J modulation) (J-调制)自旋回波傅立叶变换谱 |
) q; G! ^- `2 _9 W0 h6 e6 |
! k9 t. U5 l9 v0 k) a+ g5 X
| ' I' w8 n+ I% {! g: u6 e! K
SELINCOR |
, f: X# b! j5 Z0 U3 l/ U, f
1 U! o5 T. P4 S+ }8 H" i1 _ Selective Inverse Correlation 选择性反相关 |
5 C% u" ^& y9 Z/ W' K* z- l! O- O, n, ~
|
) c2 K: V$ f$ `" G5 G SELINQUATE |
) d+ ]2 Z$ d7 p/ A+ _) ]- ^9 W% Z; o+ {, Q- E/ E9 G
Selective INADEQUATE 选择性双量子(实验) |
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' R# d% D" m" M0 g" C' ^) }
| * h0 J3 v" P; ?6 E# K! D8 F
SFORD |
2 o p5 |7 v7 y* K
8 s M& Y# `' d) L' |1 T. r Single Frequency Off-Resonance Decoupling 单频偏共振去偶 |
3 \9 a `6 F( B5 H* a1 T
: P; p/ v. u( k: O* G/ k% d| 5 C7 t ]5 u* F
SNR or S/N |
7 \0 s7 ?9 X* S/ m* N, Y1 y
- N+ q( r/ [/ D6 E Signal-to-noise Ratio 信 / 燥比 |
. ]4 ]- } N0 s% O1 t8 j* K' o8 K* _ M$ }: J5 K8 y) }
| , r/ r+ j0 {1 W I" G0 H6 P3 O+ S
SQF |
3 x& F( F3 n1 Z6 P3 M( b" W; t; @9 Y7 o* ~. a2 Y4 q
Single-Quantum Filter 单量子滤波 |
$ T4 Q1 a: Y# d2 t
3 p& Q% A% E2 j; }7 d& K7 }| : E# P4 }& s$ g* J2 I1 Y2 V
SR |
. r0 @/ \& q! |6 T$ N4 M4 j% M% x4 g4 ~4 M
Saturation-Recovery 饱和恢复 |
; g: T: N/ y0 x: A5 S7 ?' {* a, L
3 P2 l0 C' {# }: v|
; Y; f9 \* R3 N& [$ h2 V TCF |
& F, T' J/ t7 r7 s
! n3 d8 [" ]) z: h Time Correlation Function 时间相关涵数 |
; H" Q8 f+ L! ~! e* B
) a% z0 S; f8 L5 z, m; \( f9 d: S|
# b$ h" _8 R T& ? TOCSY |
) N9 k- A, f6 E4 D+ ` L; O2 ^
, H6 c) C. q- f Total Correlation Spectroscopy 全(总)相关谱 |
' Y3 T0 v) D9 |9 L& r s6 {
" Z' m% Y/ F" i: }- s- J
|
5 `+ ^8 s$ i0 H; V: v7 X TORO |
" P0 a) t( F K! T) n
4 [" d: `. ^) y' ~ TOCSY-ROESY Relay TOCSY-ROESY接力 |
$ T" x5 ?' ~" ]5 ~7 v* I
9 f; B) o" \5 M2 ?- P# T|
9 g9 Y4 J4 U+ F2 m TQF | 0 Q# W( y6 q' V$ x; J
/ s1 L0 A. t) z( s# j
Triple-Quantum Filter 三量子滤波 |
$ B" x3 f" ?3 C$ ]8 V
8 g3 ^* L! P& E" }, d( X
|
1 I" ^( d {: Q4 n( F% r, o WALTZ-16 | . {/ v8 o; P4 h" c" Y% Q
8 W+ {/ t) g' z0 V2 f' w A broadband decoupling sequence 宽带去偶序列 |
) y# f' I* w& i G' J
+ T+ |5 c3 L) x( v|
2 T# g, i3 U; I9 W WATERGATE |
: K# [7 l1 b+ L e1 |: y
# }2 o% }1 y. [2 q7 W# ^ s Water suppression pulse sequence 水峰压制脉冲序列 |
/ b: `! n" o2 N T+ ~3 B# K
: J6 n( {) E1 d$ A& J/ B0 o d& _| z8 i J5 g5 c" ^5 V
WEFT | 7 `/ v8 P) \. w! h: g* T9 \" ^
3 _& B' d) \, P% D
Water Eliminated Fourier Transform 水峰消除傅立叶变换 |
- Y# K0 ~5 ]4 c& x8 l
* B& ?0 j0 z0 n C
| . H& Z% ~$ @7 r$ Z+ J/ @* q2 n0 }
ZQ(C) |
' _- X1 \9 r. B0 c( {0 j0 N2 \/ H* y$ U. b( G
Zero-Quantum (Coherence) 零量子相干 |
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% x" n" O% z! [3 K q1 y: M; q
|
- e5 G" p0 @9 n0 x* |0 \. l ZQF | - t6 J: {: ~2 ?# _3 O
! c7 Y& W$ Z/ U! R8 `- r Zero-Quantum Filter 零量子滤波 |
: U0 y) m1 M' U6 i3 z* i6 W6 y' N- u
|
+ y3 [6 i5 E6 H4 S5 ^& J6 ~ T1 | ) R2 {' W1 s1 q3 q6 Y8 y( V
( d! f5 L- ~0 w; c Longitudinal (spin-lattice) relaxation time for MZ 纵向(自旋-晶格)弛豫时间 |
, M8 \7 K0 |% m! l `5 T$ X, B# v0 N/ Z+ \7 j+ U; g! |
|
- {3 S' u1 t2 w6 j9 ^ T2 | 4 p4 M2 P. Q* d; F4 W! ]
* m: J1 z* u* h- D Transverse (spin-spin) relaxation time for Mxy 横向(自旋-自旋)弛豫时间 |
( C) K R4 N/ A5 a* N
/ I, J# u( H. `% g2 O
| ( o* a* u/ {1 J; I" ^
tm |
6 `: u$ a4 K5 h6 W! J0 r8 p
r! b1 N$ w3 o' ?8 z1 a mixing time 混合时间 |
& `- C+ n. w1 N% {9 I, b, D
! Z5 B, {3 A* } X8 u/ c( j
| . W7 X2 L/ a/ R; ^ @, c& e
τc |
. Y+ ^. \$ f9 f& C8 F( S* ?% ^: p1 {) n
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
