6 Q! B+ j/ _) ]* p( G& l1 i$ L
1 ]" k7 L: u9 {( U% `7 k4 N$ f| / p1 |; ]2 h5 E
APT |
# i6 T1 E) _/ ]5 Y4 @; P
8 V0 P, z- J) e' k3 p- ? Attached Proton Test 质子连接实验 |
9 a; [3 H/ y4 e3 N# l/ B- {
: k$ c2 M: j& Y, W M/ x$ G5 R| . f" s! t6 M8 G3 R4 S* W. f [
ASIS | # ~/ A/ e1 i/ g) e: m# m
" r& g/ ^7 T& k3 H Aromatic Solvent Induced Shift 芳香溶剂诱导位移 |
# Q( T- W0 ?3 `* ?6 w2 X
1 S6 d- @* U* j) M5 B& || % _7 t' i: Y$ W2 \3 }
BBDR |
* c$ ^. E( f1 Y, h: w$ b: Z2 H8 v8 o3 m. a4 [
Broad Band Double Resonance 宽带双共振 |
$ T M$ j# Q/ P' [6 I: ?0 p
. w8 A4 \/ K6 a' f
| 9 |: |9 F: x& n) F+ ?! D7 U; T# o6 T
BIRD | 8 @- B) |- F$ w* Z2 h! N
" G5 N4 Y" a4 t& c
Bilinear Rotation Decoupling 双线性旋转去偶(脉冲) |
$ \0 }* H; Q0 T- Z
9 [ l7 B. g$ o+ u, R3 K& b|
+ e2 ?; X: a. m% g' f COLOC | ( U# w+ Z& x3 l! N: ]. h+ h
4 ^% y) Z e% j" M+ ~: i( [
Correlated Spectroscopy for Long Range Coupling 远程偶合相关谱 |
8 T8 K: W" l; g v0 V
1 h) U0 \! ]) ~# G' X
|
8 s2 M& q, M# ^2 l) g$ l: ]* O" }! E9 i COSY |
8 a P( w) k9 X- A8 N5 ?/ v; f$ U. n n2 \8 t5 z( z
( Homonuclear chemical shift ) COrrelation SpectroscopY (同核化学位移)相关谱 |
6 @ i: B1 X0 N7 [& V6 e
; D n( z8 n6 |9 Y0 G* i" s$ E|
! y# @7 U- x% \! v- Q1 K CP |
# K* H9 z3 k; h! d# q, Z; X4 g! r" u. B- s/ U
Cross Polarization 交叉极化 |
/ w9 I- a% f5 n% j% m5 M8 x& A2 ^! i: R( e$ |
| + p8 V, T, V2 z+ M5 R$ D0 B) o
CP/MAS | ( J, a: i% V* ]1 d0 A. V
! T; M* c2 ^- z- G: `5 D9 F
Cross Polarization / Magic Angle Spinning 交叉极化魔角自旋 |
8 \& E0 f; I- T3 r
9 h2 ^) ?% N* Q! P, k: J* C6 H|
7 U8 w* N& U+ L# `4 W CSA |
3 k0 c6 N7 P( n$ e* ^8 G' v& Q1 o3 T; Q% ^: e6 U
Chemical Shift Anisotropy 化学位移各向异性 |
+ c! `; V# U p+ Z+ X3 C& Q
( g6 D2 C3 F* f2 R
| " ?. A2 U0 @4 H" }
CSCM |
$ Z8 E: _1 ^1 O0 H+ j8 n: j$ e0 I* ~2 F. n8 F/ r
Chemical Shift Correlation Map 化学位移相关图 |
" S3 I9 e, j; T. u; W1 ^6 A3 \
| , _; s9 k0 q) x- s5 a2 F3 g
CW |
5 l$ a9 h' g. R8 E9 C
& Y" ]: z) y @! w7 d continuous wave 连续波 |
1 u5 t0 {- w/ D) }" q
5 ~ E2 U7 q. z, f# G9 U! ?; z7 b|
* K/ g- L& H% h9 G& S DD | ! Q P1 X- R r1 W: o: H0 [
( u8 x& T) l1 F+ ?1 E
Dipole-Dipole 偶极-偶极 |
) c: s# }/ ~8 \3 _1 ]+ Q9 r
; T/ h$ d1 s3 |8 }$ W" V7 l* b| 4 G4 W, i% P: W( S
DECSY |
) L# ]$ B: o* U& i- @" r" J! W" f0 E$ J4 }3 k
Double-quantum Echo Correlated Spectroscopy 双量子回波相关谱 |
: u5 D: ?5 P! u" M, N# X; O3 B
1 I% r( [3 l) f| + h( \" f- j* b! S4 U" r
DEPT |
3 |3 t9 l0 X5 h4 v3 _. ^
" ]; ?! T: Q" o7 ]6 l8 B' \# c Distortionless Enhancement by Polarization Transfer 无畸变极化转移增强 |
# l t( y0 _9 t
' q. L3 r$ L; }8 R, Q1 c y0 N| 8 @% ?& X j s( K
2DFTS | " B8 ^: v* c/ i! X8 f6 l8 t' M
5 ]* V+ p4 _( @% G$ L5 M
two Dimensional FT Spectroscopy 二维傅立叶变换谱 |
' @3 O, S3 c9 O/ }
: A3 C6 v/ Y4 L: |8 C|
5 V9 }4 A# u ?& q- T DNMR | 4 e! Q3 V" ?( j$ p L
, |/ }! j/ t) U' W- A9 i5 G Dynamic NMR 动态NMR |
( z4 M- R( o" D6 s; z' C
# F+ h9 T6 S: ||
9 `2 i+ L% y2 ]6 a6 k# u# W DNP |
1 X- S1 I# r+ \- @
7 }& D: {) T1 K3 R6 W% a Dynamic Nuclear Polarization 动态核极化 |
& S2 U; @: j# @$ `) q% D6 G- ]( [2 e3 U n% x
| : {( b3 w j3 k" ^9 `; T
DQ(C) | 8 r* J: B+ k/ r, Y
3 L+ [* [5 D* M0 o- |. u$ K Double Quantum (Coherence) 双量子(相干) |
% Q# ~3 p0 A4 u5 x4 k
1 k% C3 ~1 W& ^& G| . K* C6 V+ ~' C$ i
DQD | : }2 S Z. G* O( A( V7 t" \5 e; k
3 I- @; n& a2 a& `* g* z. b- h% b Digital Quadrature Detection 数字正交检测 |
' ]; I# z- J/ N4 V( u$ d ^! v
1 v$ F" {8 \- U- R' f! i|
h8 m+ P' y9 ^9 v DQF |
0 Z# I& {7 O0 \9 h! }4 U! q3 k. G0 @5 m* o. E
Double Quantum Filter 双量子滤波 |
+ e( _ C: t! _ }; T8 H+ H2 m
' }3 D9 U. n @6 i1 S3 O: J|
9 h( R* `' X! K% h: G( V' |+ U) s; ~ ^, N DQF-COSY | , N; [' y; w* G: ?2 g5 g, ?
/ \, o& F- B: |; t3 ] Double Quantum Filtered COSY 双量子滤波COSY |
1 I2 u, U r9 j$ H9 n+ a: ~, S: G! E
| & E- Z+ D& r# {/ S; Q! T8 O" T8 }7 ^
DRDS | 7 \ n" x# M& n g% h# ?% ?
' x P4 X& V3 h1 C
Double Resonance Difference Spectroscopy 双共振差谱 |
, Z8 U1 x! w. y* S5 y! _
( e. V7 S' H5 V1 a/ m% e. l
|
" Z3 ?- w) c4 O6 A R EXSY |
# F0 c" ?- ^" |4 p& l
- o0 n, s* D' A" |" N- r Exchange Spectroscopy 交换谱 |
. A8 _( i# @/ ^4 U& s
4 N! i3 _, F0 t7 Q6 C) r|
* a/ i% s/ I$ e0 `7 F FFT | : r7 w( u) h/ m! j2 I3 n
5 l0 g4 d, C' Z" D9 C) ] Fast Fourier Transformation 快速傅立叶变换 |
8 n4 _4 q2 m8 B2 }7 \- x
' U2 O- T- ^5 E8 ^7 b: F9 u3 s8 @| - M, J6 l. g$ f$ G# B, T( g5 n2 l
FID |
; n; J: Z/ c: y6 a! K% o( J: P" z! A& k, a1 G
Free Induction Decay 自由诱导衰减 |
0 @ m. M; T9 N1 d( d# W5 N, G+ e
' u# g% H$ d& `/ A/ \1 \|
A) } o: |* E4 \' |7 ~ H,C-COSY | 7 L) L" h8 F$ C2 [% O( j2 j4 Z/ h
B5 E Z) e( z" c1 P* X, U- C 1H,13C chemical-shift COrrelation SpectroscopY 1H,13C化学位移相关谱 |
2 W! j. D" x# X, G. [# Z! c; P7 G* k
5 [7 M( j) A+ E7 T `| . r7 {2 V. I, o" E
H,X-COSY |
1 r+ F% m+ [/ K4 e3 z4 R( d, j7 W* q: V
1H,X-nucleus chemical-shift COrrelation SpectroscopY 1H,X-核化学位移相关谱 |
3 l) {. a- P3 F/ y
3 g4 u3 |9 J2 }! i8 ^- }|
5 d% d. P3 D% b4 b; p. a HETCOR | 3 O! [; s/ v j
7 F; @0 \$ r6 g; i2 [0 u
Heteronuclear Correlation Spectroscopy 异核相关谱 |
4 ]* M n8 C8 v) K* h1 O! ]' M
0 ?- k6 O& z& u- D
| 6 q. r8 f3 c# J# r
HMBC | % M9 X; V+ V+ k1 \3 O3 k2 s( _
; v" }% N2 S8 D! h( x; g4 \ Heteronuclear Multiple-Bond Correlation 异核多键相关 |
" W8 n& n: s3 F/ Z+ C
5 `( j8 o2 d% w# G9 {
|
3 m$ r" P$ U: j* ?( b HMQC |
, W% r# C8 x1 ?2 n8 @
8 X1 m+ ^. x6 d; T7 \5 K) e Heteronuclear Multiple Quantum Coherence异核多量子相干 |
" I* l1 j, ?9 ^ C# {7 e$ ~/ ^
; p$ l- T4 M8 S7 {4 x* f
| 3 k& I& y) R6 U+ e& ]
HOESY |
) Y: @) U/ W# [# b. u) N5 D& H. f) q9 A+ }8 f3 q. A
Heteronuclear Overhauser Effect Spectroscopy 异核Overhause效应谱 |
( P* L& U4 L) @" T' z7 E9 O% U& l! }; N; ~# u" E9 A
| \/ T) N6 E1 ~- K" N
HOHAHA | * s4 ~; Z ]* k3 A( w4 s( o
0 R( q( x* j$ T6 w7 z5 I1 `: c Homonuclear Hartmann-Hahn spectroscopy 同核Hartmann-Hahn谱 |
- f8 ]7 D2 w) v6 u* r7 d2 I8 H3 h3 o" D& u
| - Z# M2 u; {/ a6 P: \. i5 Q# n! S# j
HR | - `5 ]) ^7 s; [6 D8 w
) t! ~/ v, b0 N; s- |: ~ High Resolution 高分辨 |
: u' k8 W' Q2 X1 F$ N
* i! I4 x+ Q$ Z1 \9 o* H|
9 i2 N& l# m1 C& S/ Y- d# ^ HSQC | ( _8 R$ K9 D) b1 Q' k$ U& X
9 T; x' O+ k) A# c; d& {, }+ z: z5 c, a+ H1 d g- R( Q
3 Q/ j9 {. l3 C1 m! G0 M+ c
1 S: {- X+ n( D. o. N1 c+ ]4 v$ Y- l% {7 u
|
1 [# n U- r4 y1 g |
2 `- ^- a% E0 Q8 X7 LHeteronuclear Single Quantum Coherence 异核单量子相干 |
7 D) k: H$ `' b& P5 D6 c0 t0 g' E. Z" Y% l
|
: _( P% Y, U) \; O6 V INADEQUATE |
& \# s8 Q& B3 m) u0 y% z! ]% O- c" N9 U* @/ I( V, G
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) |
) p. R5 f- `% r9 [
% ?9 J8 W* W/ `; U+ n2 x2 p
| 1 e0 b# Z' Y$ F4 T7 y
INDOR |
: p9 Y# f: Q& ?8 t7 H; m5 w) m g' ]# S, E3 ?
Internuclear Double Resonance 核间双共振 |
" {, [, A5 e- e3 M) W9 x/ ~
1 `. m3 U4 B( `/ L3 l7 B3 y
|
. O+ I& q0 v" w/ s* g: g INEPT |
* _+ b- ~5 F0 B, L. ?# L! z% M- ~0 \) q8 l, A9 T
Insensitive Nuclei Enhanced by Polarization 非灵敏核极化转移增强 |
& C: N: \/ U7 w: T2 @
; h f( U$ n: O2 l0 h9 R" K| 0 `1 l W# o$ s- e
INVERSE | : i9 m9 T: A3 J% f
* U% m; o" ?: C2 s4 w: U
H,X correlation via 1H detection 检测1H的H,X核相关 |
9 F9 E5 {8 A2 q+ b( X
# n- L7 N1 D" S' o3 C+ t9 R6 E2 L| # [$ G! Z& _6 I- U( ?
IR |
5 e0 @2 A* _) U/ F' U' _( d; ^* M$ v6 J/ ]$ C: j
Inversion-Recovery 反(翻)转回复 |
; j; E- N1 O' Y
: R4 Q$ P& P( Y7 c, g5 I0 ]2 r9 G- e
| 8 O" ?) |3 f* o3 @* S
JRES | ' C n: G& ]/ m
3 E1 C, I' h5 l2 H" u5 O' [! f$ H' P
J-resolved spectroscopy J-分解谱 |
- j) x6 G! _' K: `. G: E
/ s2 `' F& n8 b! z5 e
| 2 d) {; y$ x' C9 Z
LIS |
. _5 `+ U5 A3 ~
" k- \( q" |0 d( ^ Lanthanide (chemical shift reagent ) Induced Shift 镧系(化学位移试剂)诱导位移 |
1 u9 q" y9 G" ~& u. n+ K& l) E7 j
1 X0 x. ]% B5 D|
6 e5 T) H* Z5 v" D LSR |
6 ~. Z: T2 m/ e' s6 T9 \
9 j2 A7 ^6 F; D: t0 e5 L/ T Lanthanide Shift Reagent 镧系位移试剂 |
' g( M* S2 K+ [# h; e
9 w& \6 a1 P& ?; k|
- T- k7 ]3 Z! F! {$ z MAS | , u" v5 K, i3 G9 m, p% }/ R
" Y' T' Z" I. n" s: l
Magic-Angle Spinning 魔角自旋 |
1 C, M, I6 u1 U9 A
( F" T& ? [8 m7 R! }, M
|
# _) w) U2 U# i8 g MQ(C) |
5 n7 O6 e' _" T' J Y2 H' ~
7 A# Y2 P9 n6 e+ P" v8 z Multiple-Quantum ( Coherence ) 多量子(相干) |
* L% ?* }; U3 c) h3 o
7 ]4 U2 ^: {- A! a| * r# w: ?8 e% i' M: q& y
MQF | . ]. R4 w/ X+ B6 o
8 q. n+ [; C3 G; g! }
Multiple-Quantum Filter 多量子滤波 |
; }' y* _5 _( T
$ L+ Z5 @3 _3 F, A! x+ |. f. ]| 8 _# x' t, i7 a' U9 c( i
MQMAS |
5 v. J0 q9 Z1 Y: @0 T/ [9 w* F' b8 q. ~1 p+ T9 i
Multiple-Quantum Magic-Angle Spinning 多量子魔角自旋 |
8 p' J' K9 H g( o: C$ G2 j2 R+ }7 n
0 Y, u) {# ^! z& s' j8 s L% t|
0 K. B, P& N: `; o, @0 I1 W MQS | ! E9 A! ~ l- Q$ r+ Q
' _4 {! U6 U* P
Multi Quantum Spectroscopy 多量子谱 |
4 V+ `+ m* F* L E- s1 Q
+ r& N0 `. I2 i0 ^7 U4 T5 p0 X|
/ V1 @/ I: b+ M6 a8 Y NMR |
, C0 `0 h5 K+ }( \
/ d0 u3 O1 ?- ^# X3 o Nuclear Magnetic Resonance 核磁共振 |
: y/ U6 {5 n/ O$ A! u
" G& }3 A/ }8 z$ s# \4 g$ Z| # n h/ ?3 ]9 E9 V: m5 ?6 k
NOE | 1 c' q) N, w O" S4 e/ q
7 b9 Q/ |& ]0 R( h
Nuclear Overhauser Effect 核Overhauser效应(NOE) |
# Q1 M6 q% m+ F
' \3 m# p0 b) Y N
|
1 O, ~ g+ H6 F) v1 Z" \ NOESY |
4 U1 s# H: `& i8 @% U6 U% p }% h! j. k- z
Nuclear Overhauser Effect Spectroscopy 二维NOE谱 |
X) n4 M3 C z0 }: ^) A* ?
9 R5 x+ z0 W$ A0 |& h|
7 c9 h; a5 l/ }$ V2 u NQR | $ B& T4 v, R; _8 ?/ f
|$ i; H. }; \* j& l' Q
Nuclear Quadrupole Resonance 核四极共振 |
: F* h0 g9 R7 I/ f3 h
$ m& E2 l) r! Z- Z9 a E| ' d* C% Y" N/ H3 U' B; l
PFG | E. E% Z1 w$ o2 j+ B9 t
z7 k8 {" Z& t. b- {- r+ Q Pulsed Gradient Field 脉冲梯度场 |
+ q6 U6 M" c5 B+ `8 ?+ P4 |# N
6 q' [: ?3 e. _- B# V|
3 l+ R4 B2 A: }" X% Q+ r PGSE |
+ }/ V7 R3 W2 x: _% G; E
5 O, G0 y G k$ t8 W4 x) [ Pulsed Gradient Spin Echo 脉冲梯度自旋回波 |
. T4 I- N o0 q Q/ Y6 K6 ?
/ j# ~7 p% C0 n% ]) h' N8 r' ?| 3 K/ \+ p, v$ D4 K, C6 k
PRFT | 4 j6 m1 v& E3 Z$ `+ d
. a9 o4 k; o5 Y9 d9 a
Partially Relaxed Fourier Transform 部分弛豫傅立叶变换 |
* k [# x' E9 O8 P9 g& U0 ~0 }
( L3 J' h( x, j5 n; A/ s4 [1 @
|
: X) E' ?+ D0 z, t4 i1 @ PSD |
0 q. H$ k1 L, l1 T6 n2 n, F% ]% h4 E2 |1 y
Phase-sensitive Detection 相敏检测 |
6 A. [! ^# b5 g H0 y5 C5 i! B- h4 c- H
|
% j1 N9 D4 n _. @" B* g. K PW |
) h6 E7 M. L& e; _( i/ X
2 {/ u& g) S- m8 y3 [ Pulse Width 脉宽 |
% h7 {7 m% \) c v/ I7 h# x
! q! k" I$ }$ O9 i- p' i|
8 n: b; f5 w" v8 k& `" ]0 w5 e RCT |
7 j( r$ A7 P1 N6 @& S. N2 i0 |8 ]
) M% R; l6 o9 Z Relayed Coherence Transfer 接力相干转移 |
$ s0 C- v) c+ ]; u
; f4 d f& \( t1 Z) y|
% w+ T* ?; U& U( @9 j RECSY |
5 D0 w2 n V0 c- i
% U5 ~% j6 J4 @. h# U Multistep Relayed Coherence Spectroscopy 多步接力相干谱 |
: L4 ~5 W) K8 z0 x4 [! C7 {% I
0 P3 `0 M5 O. @' N) Q| , S& D( {( b2 n7 e0 z% S0 g
REDOR |
# C, }! h% t/ h. T2 i
* |: l: P/ |. A/ [ Rotational Echo Double Resonance 旋转回波双共振 |
, b: f% e# K5 Y8 X% c! h4 }
+ M5 Z& r/ J+ } s" y" s| $ X* u. I4 c! E( n' z
RELAY | . ?& M$ h9 k+ \$ S
& I Z8 N; Q; E+ Q Relayed Correlation Spectroscopy 接力相关谱 |
7 _6 m6 I- s" Z+ f X6 ~9 R
/ @7 e9 o3 f. o/ W+ ^0 ||
' g: T- t+ ^8 v! c) s RF | 6 q3 h7 `: m6 u4 p2 Q
8 A) W/ W) Z. v0 L$ t) m! g Radio Frequency 射频 |
; E; ]# {# [/ l; U
$ J5 m9 |/ M9 ]& w0 S
| 2 k" `( |- g% Q5 ^$ M3 O
ROESY | ! U8 M5 i3 ~' S) G& q; G: w! g9 t
+ R" P9 D0 Q0 u) r7 D
Rotating Frame Overhauser Effect Spectroscopy 旋转坐标系NOE谱 |
4 J1 O6 x6 H t& q/ K
& c! ^6 {7 ?/ l0 w0 W+ H|
5 p7 p' x' V3 @" B3 y: P- h ROTO |
9 D1 I; J3 O6 g8 _* i7 O2 n1 Y7 ~/ E5 X& q( _$ a7 t" E" T
ROESY-TOCSY Relay ROESY-TOCSY 接力谱 |
$ `! U! [% B! H1 [3 F9 ?! ~# H X
/ G. ?, M( e1 T8 b; h/ U% Q
|
7 T/ i$ Y/ b% M SC |
* m$ E( V2 p! g9 r* `* |- _
8 D% m1 e" l0 m9 U3 E% j; b+ I( \ Scalar Coupling 标量偶合 |
* ^5 R* `3 c: x: X
6 g( J9 z/ D/ w
|
3 m8 D2 h. \& k1 m2 _ SDDS | 0 X# U4 ]* M9 |; T' W8 ^& _" r
+ P/ E! W& p( p# z/ [6 y
Spin Decoupling Difference Spectroscopy 自旋去偶差谱 |
5 ?; T* V6 p5 V6 z( k
O5 A; _+ E# r6 G7 _/ ^, g- O
| 0 S$ ^7 s) T& l
SE |
) T& }% Z' O2 w) a& |& a& `+ v
Spin Echo 自旋回波 |
4 Q( k$ s. L+ V3 w
* j4 Q# b$ ?; a# @|
1 i# _" z4 ?) G5 K SECSY | 7 J& T5 o) o0 X! l5 u- M
0 O6 k0 @% {9 L& O Spin-Echo Correlated Spectroscopy自旋回波相关谱 |
8 E6 r, S4 W7 {# f7 K5 s+ m( s( |, _5 r2 }, o/ C0 h& i
| 5 `" a. \! n: Q" M# H& ~$ M8 @
SEDOR |
0 X' t1 }+ z+ X3 S% B* {
+ R' r4 y7 L p0 B Spin Echo Double Resonance 自旋回波双共振 |
* @- f* H, i( s" W" y0 E. x$ B) L4 B; Y" S: M/ @2 Y
| # `% C C5 d2 z; c& G
SEFT | 7 B9 p7 e; v& x. |5 @3 O; I9 j/ B
1 A5 e0 T1 \8 `
Spin-Echo Fourier Transform Spectroscopy (with J modulation) (J-调制)自旋回波傅立叶变换谱 |
% Q {, Y& W m% [" S. Q( p2 b
; ` s/ l, a9 f% w4 |* O| / o1 T H' w# c) [8 p! h) a0 o
SELINCOR | : q' p& m. g5 k+ [
+ J+ g1 w/ A2 y Z, X; |9 q
Selective Inverse Correlation 选择性反相关 |
( j. \, K" O \0 Q3 a
& b I. [/ c0 U1 \/ `5 P4 l| % T0 r1 J ~: d; T' e" Y
SELINQUATE |
4 N: m; N0 Y& ~ d3 a" @' s" n
" p; ]( F0 {) J5 U% w Selective INADEQUATE 选择性双量子(实验) |
' [: z% D. F$ I4 y
; K' R! h$ u D7 n| 1 p* ?8 S9 v* k# x* i+ d- K
SFORD | C$ Q( ?3 H/ [! L( c Y
- s$ K! X+ L* ~+ O Single Frequency Off-Resonance Decoupling 单频偏共振去偶 |
+ u! {1 r _) p+ z
+ S$ ]* v) E e. v| & b. o5 e0 p k( T
SNR or S/N | 2 }2 [" H0 I2 ^$ k
; C' j3 |' _( C5 v
Signal-to-noise Ratio 信 / 燥比 |
9 r! F2 y. \8 ` m! W# q
+ O* a3 J' p! `( W* `) p| + [4 r, x) | o5 J& C# u5 u
SQF |
" H5 }! R' [: A4 L" P9 w$ K1 `0 g8 B8 e2 ]8 w5 Q8 x* d' {
Single-Quantum Filter 单量子滤波 |
, s; B- U/ ]" r& D/ a
; P4 L& U } k% W3 G| . c& r" k6 n/ S. t
SR |
7 ]8 w1 Z( U9 t! h
' w7 g/ |: J% S Saturation-Recovery 饱和恢复 |
5 v1 M& |+ A9 Y7 c$ i* F. @ J9 \, q4 T! T* ]1 A5 `
|
4 ~$ @( S! q- H TCF | 4 `- Q( R: ?2 `3 t) }9 W
4 Z* |$ f% _- K' e2 Z0 U0 `
Time Correlation Function 时间相关涵数 |
# l. C; z, v, [+ O
- G" z1 h0 {. ]0 `
|
* n8 n4 f/ Z& Z% g' m. d TOCSY |
6 Q: x4 \7 I. j5 p7 l3 [! Q' J- D9 k4 C: D, g! `% {( l1 ^ E
Total Correlation Spectroscopy 全(总)相关谱 |
5 x7 @( Y. t. B9 V! q
( ^) i3 A; v( l- Y|
: o0 T( ^5 K: r- E TORO |
: i! S" D, ?# n' L; B
! s p" \7 F% X6 Q; q1 i TOCSY-ROESY Relay TOCSY-ROESY接力 |
' w1 f1 v1 U& x/ _- i: b" X- o
r3 w$ h- l: j0 m+ e
| - M9 m: F6 r8 r. Y! c- A
TQF | 6 n3 d4 G8 ]* H% d
5 d& x- X& O" R1 H" Q! x2 P3 |0 S) y
Triple-Quantum Filter 三量子滤波 |
; N; M" B. {. j
6 n' K! b ?* b$ J' [
| 2 {0 n. C7 N4 t6 E F3 t
WALTZ-16 | % \/ _# B, z# `3 }3 W
) ^+ y0 V+ N; S$ v5 [5 P A broadband decoupling sequence 宽带去偶序列 |
: A* c& @5 I3 N0 L( o, b: s1 r5 X) Q+ @) u9 D( s
| ; @! g$ ]9 G, j0 `) w
WATERGATE | 0 P. \4 W, h8 d: g9 u4 W) x1 N
4 N5 Y. z1 A+ h. v4 T; L! A% M/ L) Z# I
Water suppression pulse sequence 水峰压制脉冲序列 |
' I5 t P1 O3 {8 |3 B9 {
! R1 G. V6 R, t8 T4 E|
* h+ v" A0 G& V WEFT | ; w; n1 f0 v8 f, G: G
7 e+ g, B. H! j+ n0 c, o! E2 A Water Eliminated Fourier Transform 水峰消除傅立叶变换 |
, P ~% T" M# N" r- v
: {: @' D) M6 W3 E/ Q
| 2 K3 g% j! f5 f
ZQ(C) |
) G6 A N5 T( Z' g9 W$ L0 @# x$ L+ I0 L5 l
Zero-Quantum (Coherence) 零量子相干 |
$ m2 }- a* J [% O" G% |
/ Z0 h( \7 Y$ O/ `
|
% C; ~6 [. y# i2 \9 u8 Z ZQF | . ]- G0 x+ z/ E
3 P- a, e9 @) E$ d e( k: p
Zero-Quantum Filter 零量子滤波 |
7 U# y W& t. b! I4 n7 }7 H6 {7 v5 O, K0 V
|
; Q S* C n1 a! y* i' u/ D/ f/ o T1 |
$ } [2 a2 L$ P" V4 j/ C' U1 w' z! y5 I/ d, R: c! i( h
Longitudinal (spin-lattice) relaxation time for MZ 纵向(自旋-晶格)弛豫时间 |
* n6 }8 M# Q6 G
6 X1 O9 E# g3 C! d/ ?. e) x0 J|
3 }- [, v, q9 e% v% Z* { T2 | x: ~: Z4 {6 p8 n
0 P `% S6 p. J, `1 @ Transverse (spin-spin) relaxation time for Mxy 横向(自旋-自旋)弛豫时间 |
# w: K4 F, F1 R0 x
0 S: P' h# P @" l1 {3 i
| 4 I; U0 d i8 E5 @' \
tm | 1 G7 L, h: I: b8 a8 f( T$ X2 y
$ n" B7 ^1 ?2 t% }2 f1 k( k8 T/ C mixing time 混合时间 |
( x6 K$ A, q! ]9 k. X( y
6 F5 X+ q4 u; a/ b) v3 Q|
& ^' {' O, h) T6 ]4 U; L τc |
/ K3 k5 d. B: `+ R, e" \& ~( A& b+ R
4 H% X0 S1 {; l) i4 q; {6 \% O2 r 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
