' r# [- v7 B- [9 J- @
8 B5 p. U0 h% l' X# V+ w|
. V% v9 X' C0 X6 k APT |
% q4 g" @8 x" R2 [& L+ N/ R0 O4 Q& Z& } Z% P6 P
Attached Proton Test 质子连接实验 |
, C4 i! h! f: b1 w' @/ u1 l, `7 W$ ^" r7 e2 ~) R% n
| , o; }2 R$ l# z8 v( c: A
ASIS |
3 F( Q; U! b8 I; y# ~* U) l- ~5 L! c6 U1 {1 @6 C7 F! M
Aromatic Solvent Induced Shift 芳香溶剂诱导位移 |
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4 {9 i9 [$ S' B' `6 o* O
|
9 L0 Y, d6 Z4 x/ j2 t* w% ` BBDR |
- K$ f. ?$ \+ x0 M2 \ c+ `
% p. K" X/ Y. Y6 f4 F( J( K# Z Broad Band Double Resonance 宽带双共振 |
+ @* B9 K! o- t' u0 ~) T7 z0 p7 _' @( N: f4 x0 k+ H4 s- v; _
| ' P+ S" J7 `; s. S
BIRD |
[$ v; Z9 x g1 _) ^# D+ t# K, ~( \$ w4 ^, `
Bilinear Rotation Decoupling 双线性旋转去偶(脉冲) |
" f) |+ f g; ^
& l% U' Y4 t# r _% }5 i+ p|
8 }% j. I* n$ T) ~2 l2 S COLOC | * m& V V$ F. \$ c* Z8 \7 U
\9 `1 S' _# W' K Correlated Spectroscopy for Long Range Coupling 远程偶合相关谱 |
; K: a" E' F6 D5 m4 ?! x5 l
) [; C; g+ ]7 _+ {, O8 U& O- B+ U h|
+ s+ L# |/ F" A+ K% N ^4 `2 m COSY | + b2 G- R9 @& x
6 f) E6 x6 {2 Y0 q" R. C ( Homonuclear chemical shift ) COrrelation SpectroscopY (同核化学位移)相关谱 |
: y4 P2 X: t |/ x+ b4 X: } c
5 \7 N9 v8 G1 o4 |; k; P|
5 f% A) k% s% x0 E CP |
. E! g. L- z* w( t+ A% n6 n" c
2 r2 ~" G$ |3 y | Cross Polarization 交叉极化 |
+ ]8 z4 |6 T5 p3 {% j' o9 T( A3 T* [, ~) H
|
8 C, D. N- T8 [. \. Y$ T ` CP/MAS | 6 W; D3 X7 w( G
/ B0 l0 V$ [* A2 m7 n
Cross Polarization / Magic Angle Spinning 交叉极化魔角自旋 |
( }( E: n4 [7 z8 U' n; V
. O1 p1 b9 K7 I6 Y5 V|
) h, ~* j/ T6 W3 p& d CSA | ) y) u2 l6 D* ^0 M- h
9 F) l4 J9 w W& Z0 a* d: A8 G& N Chemical Shift Anisotropy 化学位移各向异性 |
# K0 s1 v3 G( v/ y
2 m, c* ?$ r9 J% l+ u0 q" b| 8 a8 T$ L1 }) n
CSCM | f6 Q- r1 g2 q5 u
, q/ m! R: o8 x( g3 s3 x! M8 [$ K
Chemical Shift Correlation Map 化学位移相关图 |
6 W* p+ s) t* ?4 y
; c F5 Y3 I* W6 V: ~. R|
, D8 `7 }$ [& w CW |
4 b o/ q$ H: a% C$ O! y. [; k: Q$ k" D' P8 U7 M5 [
continuous wave 连续波 |
" p" M: C' n' U* J- ~
" u# c, d) p& }2 \# K9 i| v( w% C/ t& w4 i9 V8 F- h7 n
DD | ; c" Z: Y2 W" X: @
, ~2 F5 p& T* I% X7 b
Dipole-Dipole 偶极-偶极 |
/ m8 U. }' v1 R' [; E! P2 N
5 m/ u, e! K' d; u# P! }2 X* K
| ; @) V1 d+ r/ D( P
DECSY | , e. C1 K+ M* r
: l6 [' c: U9 M. d+ I+ R' m
Double-quantum Echo Correlated Spectroscopy 双量子回波相关谱 |
% F" R: [$ t5 l5 S5 q5 U
2 [, O! j! Y; {$ t( E+ B, y
| ( K) \ H# k. J
DEPT |
: q5 k+ C( G7 z: T; e0 k
5 d. p+ c6 t) Y& z Distortionless Enhancement by Polarization Transfer 无畸变极化转移增强 |
2 g1 [. a. P0 E! ^- K- t
1 f" i: H. J% E5 q4 c|
5 g' s$ }6 R' a2 C2 f 2DFTS | 4 o$ ~, S( n( n+ D9 c
7 Q* Y4 ^/ B! R
two Dimensional FT Spectroscopy 二维傅立叶变换谱 |
4 R3 y4 o( O- j8 p- ]+ q& p3 C! H; a( b% J, b
|
% H5 X9 G+ f% ?6 ~ DNMR |
- t" k# r6 ~7 R$ o) B1 b
' z. I+ C" E) q Dynamic NMR 动态NMR |
4 L/ \0 {! v' E
9 N/ A" u6 Q; z4 I# I P2 x- Q8 w| ) Y# b. N& l4 i( u$ H+ L1 G/ M
DNP |
7 R8 Y, j9 i$ R" l% |7 H
( A( c Z9 q( }* G" S& z# Y Dynamic Nuclear Polarization 动态核极化 |
9 [ d6 A/ \ U& ~* L4 h2 ~2 ]
) q2 S! s1 G- ^# m4 H|
' M3 ]- ^- N6 C9 G DQ(C) | ( f& Y& |, {8 G( \* z
8 Z& z+ g' j( g Double Quantum (Coherence) 双量子(相干) |
: m% V- x/ E9 N7 p/ L. K
# k `. f, Y& `, v& C" Q2 Z- u1 A
| 9 D4 a, g0 v! a) L2 g& Z
DQD | / ]) ?" u. t: Y( l3 }: n& p
" X: O3 X; x% u! i3 g% R1 L$ b Digital Quadrature Detection 数字正交检测 |
. y/ P# X. L0 T; G1 x( S
, q1 J; Z# F' G& Z, {+ o|
& e" ^, ^. v0 M, Z* v4 A1 @ DQF | ! |1 n8 i: U: D: t- }/ V' ]
, h4 G: e2 G( f* X' H$ ?
Double Quantum Filter 双量子滤波 |
$ ^/ |5 N( [$ R$ J+ `' _8 }# A4 n9 T! r
| ; l+ ]# I0 J+ \5 f
DQF-COSY | + R+ t& o* e9 |, E) V
5 [" M1 M) v2 e7 u# i) o7 A
Double Quantum Filtered COSY 双量子滤波COSY |
Y e2 H+ m4 ?8 }# G
) j% C; g, d$ S- d3 m( J/ a
| 5 a3 G' \% u, W1 F5 `% m
DRDS | 1 w Q! g* U4 n" Y8 X2 T/ f
" z7 ^5 U. r& D1 B0 O3 ]
Double Resonance Difference Spectroscopy 双共振差谱 |
; E! q J- R) h- x( G( k2 ] l
9 Q& T8 K! _( l/ {( B- \2 `9 O| $ T$ \& Z7 f" I; S) x
EXSY | * n {: S5 w! R6 _, I
" Y2 r/ F# Z, Y* }' \, G- Y
Exchange Spectroscopy 交换谱 |
$ ?% |* g, m% ~2 Z5 Z* x5 C" Y; R6 Y
|
, \" ^% J. S0 }$ j1 ? FFT |
. G& Z* M( N! A, X3 P6 l k! m- c) `
2 I' A' N+ w5 { Fast Fourier Transformation 快速傅立叶变换 |
. f5 z; X2 w( D
5 I8 i( h Y8 ~3 Q& F3 _
| / a& @* Z$ f Z! x$ x
FID | : S6 _* x9 u' @' D" K+ ^
0 t$ y1 _$ p0 q9 _
Free Induction Decay 自由诱导衰减 |
" _3 q% Z+ f) @, G7 N2 E2 j( D. {2 s* T1 v G4 w) l) ~) t
|
7 d% c( J l2 Z: m M H,C-COSY |
0 u* [8 D# J% }8 N) n
( Q; m, Y4 G ~5 z B* ] G2 l6 h 1H,13C chemical-shift COrrelation SpectroscopY 1H,13C化学位移相关谱 |
# @) [! n* _% m' _, l, T/ L R6 h7 O) ]% y; ~) [& Y& c
|
. ?& }2 f$ `1 ], E2 i H,X-COSY | - f+ p# y1 u: [* ]' @$ F6 O4 _
5 K1 J: O! J% A- T 1H,X-nucleus chemical-shift COrrelation SpectroscopY 1H,X-核化学位移相关谱 |
! r5 g# Y3 o4 B
0 w; H; Z, q) s/ S+ h|
! H$ Q: ~( P8 W9 Z& }7 D HETCOR | & P: h% Q& M! l: z I6 H: k
, Q q, Y3 Q! s0 e Heteronuclear Correlation Spectroscopy 异核相关谱 |
( T& L6 Y t% T, {
# r1 L1 d' T, o* I| ; f. G& }4 a7 I. m+ E( b; x
HMBC | 6 \2 L4 x( `; o% M+ B$ _( F4 Z
& m2 h5 M9 c/ Q# g8 o Heteronuclear Multiple-Bond Correlation 异核多键相关 |
2 _% u5 h: Y2 E+ X5 G2 Y1 v* f+ i- K l; P0 j9 U3 g5 `, t
| & ]% K* J) u3 L
HMQC |
/ d) D( S, x3 v+ F% r) y7 I) }' _6 b$ Y4 t1 [. ?
Heteronuclear Multiple Quantum Coherence异核多量子相干 |
3 y, j$ @2 E8 w; q
( [/ c5 n* D0 @
|
2 @4 u/ _, o7 I. q( J HOESY | / g/ k" Z, g$ n, |
- p, i% v, X0 P6 I, K& o
Heteronuclear Overhauser Effect Spectroscopy 异核Overhause效应谱 |
. {8 @* M& W$ e# D# `5 C- k' T
|
7 H+ O& [$ }2 M7 h" _ HOHAHA |
* I! i6 O8 D! D% s3 c9 F+ i* m0 B3 p% S2 ^2 P3 E/ _$ G4 P7 v6 ~
Homonuclear Hartmann-Hahn spectroscopy 同核Hartmann-Hahn谱 |
; J+ A, r. j$ S: C. Q- X8 l4 K- P/ |: b; K
| # e7 `' Q2 Z2 q# L
HR | : R V1 e+ J9 M& M! k+ z1 ]
3 T1 s/ H2 b; c! X: ?3 d) J
High Resolution 高分辨 |
' ~; u. ]: D2 H. \; j/ j f# U6 C$ l" Z2 k0 \" W- a$ ^
|
5 E0 Z& l% {4 d7 q6 l7 a HSQC |
4 x' L; P3 J2 o% R- j. I
" z+ g. ]( i1 p) {6 W8 F" r9 S! W' V
- r K* f& ?% @& X! O9 T0 ?, ^: b* k% A! y: |( s5 b
5 a) D- ~0 T6 i3 K3 s
|
, m7 p" s- d! g1 g* S |
) c' l: b# g. M" Y& Y% ]( {$ KHeteronuclear Single Quantum Coherence 异核单量子相干 |
# J4 |3 v9 n3 Z4 u
9 r( d3 ?9 d. W0 S- p
| 0 g' w/ x' I( o& M: t- n
INADEQUATE |
6 A' U1 v. V1 F
" a- t% L0 k+ N6 M* n 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) |
! ~/ |2 K1 O6 y2 f9 \7 J2 `" [ w% \' |# h7 U: D% Y$ f. E
| 3 I4 n( L9 M9 s2 r' A
INDOR |
) {9 c# [- u) G' i; X: g
: [' ~0 y N( ] Internuclear Double Resonance 核间双共振 |
: Q# p$ L- ?# L4 Z( K- N2 k. H1 y+ t
w4 R1 c" ?* q$ X( t| 8 L$ A5 c: O5 ~$ w: `; E
INEPT | - k7 I" ?8 a v& q, g
3 V |/ r" d: Q: P3 i! u8 c
Insensitive Nuclei Enhanced by Polarization 非灵敏核极化转移增强 |
/ c' r( P/ E$ e6 I
+ e6 E. u7 k+ ]+ D1 y' r|
, v0 m4 O1 U0 `* A' P; p7 h INVERSE | # p/ [3 ~# z* p! p+ j
: ^& Z( u6 o }. l* X3 X g ~
H,X correlation via 1H detection 检测1H的H,X核相关 |
' t, X1 M0 B. D+ a9 [; K, ~
. L8 M# x3 I3 b' F. T5 u3 F| $ A) v) K6 F0 b# ^2 r; H
IR | 4 J* b% R: M! B/ S% C
. q2 N! v' h. p7 U. d, m% G& X
Inversion-Recovery 反(翻)转回复 |
! h X1 N' o2 `5 i6 S: R, T
9 f4 C3 C% A! U2 Q2 \% D) v) W|
7 F- t, R1 u7 }! { JRES |
4 h9 o/ d1 z; m3 z
% x" p/ `- e. Q0 a J-resolved spectroscopy J-分解谱 |
8 U: e+ U. J0 ?( Y' O: `
5 i# E; N Y! p9 U4 _3 q/ I| / k! b& w! Y+ ]
LIS |
. V; n9 e/ [" |- s( f2 R' ]
& h. ]4 d/ ?+ w) v$ h. w' B Lanthanide (chemical shift reagent ) Induced Shift 镧系(化学位移试剂)诱导位移 |
% A4 v. I' ?! d, |9 C8 C
% T# V" k, ?- n+ l: X& @|
1 |! r3 Z& C" O9 h- I LSR |
7 J, ?2 S. K( W) y) A7 k( U& ^
( W ]* O+ n* \- X: h. i+ ` Lanthanide Shift Reagent 镧系位移试剂 |
; Q/ [% b+ N% q) L& d; U
; ~2 I7 u8 G- q, Z|
: h4 V; o% O) _ MAS | % b3 [3 ^2 Z. j
* ]& d: m6 R8 u# {
Magic-Angle Spinning 魔角自旋 |
$ \+ I* @0 x# H0 w; |9 w: f- y1 Z# w) Z/ _7 h* W
| 7 i: L1 v) f, m7 [ n
MQ(C) | |/ _! h1 M2 T- ?! @6 Z
& n8 Q1 N5 G p1 a4 ` Multiple-Quantum ( Coherence ) 多量子(相干) |
- R" [6 I$ P7 e9 i5 x
8 R1 `7 D6 \7 x4 D: B
|
1 A4 e: W% G. b6 g' Z6 I MQF | % r( e) F1 p" K; H5 w
1 a4 W! H" ]/ T0 j2 w Multiple-Quantum Filter 多量子滤波 |
+ F2 l% p* C+ d T- W
0 z5 g+ \) H$ z, U q
| ! X/ v6 z4 F* \
MQMAS | ; n. Z1 T" m6 h$ {2 z
" r* a" e# n% U/ a+ Q Multiple-Quantum Magic-Angle Spinning 多量子魔角自旋 |
' D& l9 `/ Y9 C3 g8 r
8 b6 b8 L1 V' A% O6 J( `|
0 }5 k- R3 p- D6 i+ [ R Q9 h* e MQS |
8 m x. v: c' E% Z
3 Y2 u+ u" ]- l6 ~. c Multi Quantum Spectroscopy 多量子谱 |
& D1 \, F6 e# i! }
" _' q6 a4 a% }( p' {0 L" W|
8 z8 V2 N' K5 k1 p" M6 L1 A p2 m _ NMR |
6 c. ^7 |! S1 {) n
8 ^6 Y% H1 G Z Nuclear Magnetic Resonance 核磁共振 |
5 R2 `# W* A6 p& d" A$ J$ Q) d
' k! t1 i! g6 x6 G- Q5 D| 1 P# X( f t7 ]' U
NOE |
" z2 p& n# \1 d2 @1 B& z! Z! k5 p2 }" v2 j9 c
Nuclear Overhauser Effect 核Overhauser效应(NOE) |
/ P; V* Y$ {% |9 Z
5 }- u. d0 Q: }2 R# A| $ I5 x% {4 O* G F! c
NOESY |
" T5 v/ n3 ^# h# i
9 i. V+ z! Z7 b& F* J, a( p Nuclear Overhauser Effect Spectroscopy 二维NOE谱 |
* V* x/ E* K' X4 U: e) E6 X
+ E* Q! {! z3 e% L7 A% O: y; N| 4 I2 h0 P; Z" ^$ j
NQR | . Q/ P% S# \5 l1 Y9 f. c3 ?: {
, E7 U& ^; ^" g& b- d% g1 ? Nuclear Quadrupole Resonance 核四极共振 |
- h( `5 M1 N& Z1 F. S/ b1 n' \& e/ ]- X& `
| 6 r' Y/ s. K0 ]# o
PFG | 5 I; Q0 d+ B) i' u
- n. m/ Z0 ~/ e- w5 e Pulsed Gradient Field 脉冲梯度场 |
. l4 J1 h9 c1 e2 |( Y
% ^5 }. W) M: h5 h2 o( O% b! o
|
# i5 m8 b y4 B3 | PGSE |
& E {" O# h& [
/ T u' s+ W) p& g* g Pulsed Gradient Spin Echo 脉冲梯度自旋回波 |
* Y4 n/ g6 h( R& _
0 Q7 R2 E# |* W7 t, g. S|
& S8 _6 |* _* p PRFT | / r2 F! {6 U# y8 u8 |
2 ]/ W! M1 C& K5 N8 M3 F9 }5 d) L, i' X) [
Partially Relaxed Fourier Transform 部分弛豫傅立叶变换 |
8 }* z: b0 }- U3 v- X8 c7 s; y* A& v* T: e5 U3 C
|
( X7 r) f) \1 T, T PSD |
9 v' u" _; x0 O% P8 Z& j, }5 N4 d4 o
Phase-sensitive Detection 相敏检测 |
5 g% ]* E" r" ~/ u4 o. E) F* _
7 S$ t( e7 n) \- T5 J r1 N# q3 U$ s
|
3 Q7 }- s1 k2 H9 Y0 p# J PW |
- x, H8 V L! H8 U% a1 H7 F* B# ]% A8 F2 v6 @& u! g- q- k
Pulse Width 脉宽 |
/ h1 d; J& L; D8 |) `* M" Z3 @0 ?
! C) W1 H4 K! I/ b
| 0 o$ V$ \4 ?# L7 Q, z
RCT | 3 }5 r5 D; _/ w' w- Z, @/ M
/ _% L- s3 _; U" M n1 o4 V; e- \ Relayed Coherence Transfer 接力相干转移 |
/ t- m' Y2 ~8 _( R) q& ^
* m! _+ \" |7 ^7 P5 h6 J0 Q* ]" G
|
. H; `& \- X" x. V9 T7 F RECSY | 4 o3 A+ O1 E' y8 S+ B: p$ Q
3 j' q5 i. x: S }/ I Multistep Relayed Coherence Spectroscopy 多步接力相干谱 |
5 e7 Q$ |+ U, a% ?
, U6 e: Y& S; E' a( U, ~ y" w1 F4 _* p| : X' q; G" D K/ g: j9 W' @
REDOR |
5 d# V: {# H2 p4 o$ |8 ~3 \/ P! P i$ Y( D
Rotational Echo Double Resonance 旋转回波双共振 |
$ ]( Q2 {1 W i+ E# @1 b; f
9 ~+ I8 |( T8 J5 j| 1 `8 ~/ V; h) H( T) x
RELAY | # \; I% x# x' F% m3 |
( Q+ _8 h- \1 S$ ~0 ~) I1 K+ N Relayed Correlation Spectroscopy 接力相关谱 |
7 J9 M- J2 w) @ X
% Y3 A1 U& m- O9 w| & W0 N4 J! T/ [
RF |
& a( G) t+ Z) u& Z' ]+ _1 ?0 h
: K1 n9 ?) c7 ^& t Radio Frequency 射频 |
" x/ }0 \. C5 F0 H3 ]! S' P8 _; \9 _9 n. H! l/ K
|
& b h& H3 E1 a ROESY |
) s& }; C# L5 n& l5 `& y! Y- H! q
: u6 p! w& T8 A$ S Rotating Frame Overhauser Effect Spectroscopy 旋转坐标系NOE谱 |
9 j% K i8 d7 `' ?) l6 N* ~
2 F' L8 j8 }; q/ u
|
* s! I+ Q6 [3 d7 ^' Z$ v ROTO |
6 A+ e& e3 K+ ]; o, o2 E6 F! y* G- J; N0 I9 I* C1 Y
ROESY-TOCSY Relay ROESY-TOCSY 接力谱 |
! Z+ J/ m+ y7 J5 L# T6 w; j( P1 H: E# D/ J
|
$ f; K. p/ ]2 n; ~8 @ SC |
. ^! U( g: O6 q* T
/ a# n: k6 d5 L$ n: U1 k4 r4 Y3 @ Scalar Coupling 标量偶合 |
5 ]( ]3 ~: ^. m
# o3 B* h& F( D* K8 G
|
5 i4 r( j- M0 ]6 y, ~) e2 |) A ]( Y# V SDDS |
. G6 p) j e$ B& t2 @0 ?$ t
& b& n4 ~6 Y' s0 l3 O9 V Spin Decoupling Difference Spectroscopy 自旋去偶差谱 |
- _2 V: \. S/ P8 C# m0 J
0 }+ g5 E& d8 d n3 g; C# q
|
& Z( |3 a% M7 i' f SE |
! w7 {4 V& u% ~) H0 s/ l
' R/ O% J. |* d0 T Spin Echo 自旋回波 |
5 P* g( ^. _* u8 O$ ~
, d# m0 ?! I/ w3 `$ P+ i, w" o| 9 X/ C# v' t0 P3 ?
SECSY |
9 R) {% x3 r- ]0 f. u5 L9 L
' w" Y4 l4 l [* m) @ Spin-Echo Correlated Spectroscopy自旋回波相关谱 |
2 ~0 B1 E$ P) Y( r
7 s( P3 B$ U0 ?# v|
7 N- D( [1 n8 m: t4 X SEDOR |
* o6 b# Y& b; t7 F6 v0 j3 `, t9 N8 n4 ]+ q5 F. Y6 J! W
Spin Echo Double Resonance 自旋回波双共振 |
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, Y3 b I1 @, L2 }0 H| ( ]- E; E( n$ F
SEFT | / j5 D5 ]4 t; E; ?4 Y1 L, t2 u
, O, E& @; _, @
Spin-Echo Fourier Transform Spectroscopy (with J modulation) (J-调制)自旋回波傅立叶变换谱 |
1 J& A0 P1 ^3 E- A; P+ Q; Q. W
0 u7 j. Q: `9 B| 2 o1 p4 J6 U& ]# z4 D
SELINCOR |
! X2 g5 G8 n2 m
9 ?! g4 f j! Q: A; ?0 M. R Selective Inverse Correlation 选择性反相关 |
: F0 z8 a [; G" a5 s$ j: E
8 y9 |- C7 ~) m! j# C2 N2 M|
" |. ^) N- t! h$ O5 s6 @ SELINQUATE |
3 x5 N+ X3 E+ @" w, Q9 x$ m4 `; N' |. s
0 M5 \2 f9 x; L" }7 ] Selective INADEQUATE 选择性双量子(实验) |
8 {: H3 `1 ]( _; w% k
- A3 X3 X$ g- }9 \, v6 F7 j5 i3 v9 W& M
|
( f5 g% q( u0 `7 B# w1 l SFORD |
/ J% R" G1 _" i/ E% S; _6 c' E/ O; Q3 M1 H; O; }
Single Frequency Off-Resonance Decoupling 单频偏共振去偶 |
7 j0 F% E6 k6 A( ]* y' c* u9 w9 t8 J- ~" f
|
/ k; _6 i; t, X SNR or S/N |
: h& O+ Z7 U. o; ]. U* e2 h0 C% R
0 b/ {+ k2 q( f! o Signal-to-noise Ratio 信 / 燥比 |
7 ?7 r4 t! d R; B, _# [7 W
8 i& Q, s( l9 o|
; V* C+ c0 Z: b3 y( C SQF | ) Y7 a9 Z' g: `5 z( I
# w: D. w+ i4 B1 r C/ q) [/ o Single-Quantum Filter 单量子滤波 |
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Saturation-Recovery 饱和恢复 |
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TCF | " }" _& L0 R, Q0 j* w9 {5 n: c
5 b. ?. @* V! U7 E: b9 v Time Correlation Function 时间相关涵数 |
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TOCSY | Q3 e$ N1 M& L
. M! N+ r! J0 |8 g5 M6 [ M! i- f Total Correlation Spectroscopy 全(总)相关谱 |
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TORO | 8 j$ X4 y& w$ B9 g, N
9 \ M* s" ~4 T; r6 V- K( ] TOCSY-ROESY Relay TOCSY-ROESY接力 |
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TQF |
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4 |. H Y c; W Triple-Quantum Filter 三量子滤波 |
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WALTZ-16 | 4 \' I* j2 ?, g! N
) S4 U" k7 J6 q$ \( g9 X G A broadband decoupling sequence 宽带去偶序列 |
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WATERGATE |
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* r" T2 v/ W4 W+ ~0 G1 p Water suppression pulse sequence 水峰压制脉冲序列 |
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9 u- }' Z6 v! y+ [ e WEFT |
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Water Eliminated Fourier Transform 水峰消除傅立叶变换 |
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Zero-Quantum (Coherence) 零量子相干 |
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' h2 B( r: {$ p5 z: h# d, i Zero-Quantum Filter 零量子滤波 |
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6 L7 _9 R+ B5 U) P) C1 a Longitudinal (spin-lattice) relaxation time for MZ 纵向(自旋-晶格)弛豫时间 |
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8 B9 o" F0 }4 t7 F Transverse (spin-spin) relaxation time for Mxy 横向(自旋-自旋)弛豫时间 |
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mixing time 混合时间 |
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τc |
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" ~5 O7 Y. O2 t3 y: k+ g: u9 l 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
