! }7 U4 a: }% ~# W: J; x' D1 W! o* h+ s
' _, T$ m/ V( v$ |! q% T. O| : E. [3 d) o" u( O& C9 ? t
APT |
m3 t; C3 x3 Z: t5 N6 f2 d
; e: r' f1 ]# c! s: r y+ K Attached Proton Test 质子连接实验 |
' B9 ~/ K, J) l! S. V1 |' l) \
7 d1 @8 u H3 P! w1 |
|
5 }. x9 M, _5 ]! m( b& l* x ASIS | " ?: P" a/ v; Q+ l0 \. r
, `7 |" f/ a4 `$ f
Aromatic Solvent Induced Shift 芳香溶剂诱导位移 |
' o2 z. D% g# M8 r3 J3 z' `/ D$ S
6 e( a3 W9 Y) ||
! H5 U; U( M4 g( d' D& j BBDR | " F5 Y c$ j Y6 v2 z% A
+ V$ }" J4 K6 B& J2 W Broad Band Double Resonance 宽带双共振 |
3 H5 a( N8 {3 A
$ g) s- q' p0 S|
7 F% v$ F( O% h5 o BIRD |
. `# {, m4 r2 d2 ^! \9 J$ g+ B% l# V$ V+ P0 x0 l0 x
Bilinear Rotation Decoupling 双线性旋转去偶(脉冲) |
" P% X7 [- n( p( x& R" r
, G& N( h/ t) ^5 ?
|
0 S# \5 z* g9 b, S1 Y! ^& |+ W; X$ N COLOC |
- u9 S! X4 T$ H$ ~. N
9 J% y, \& a9 E) | Correlated Spectroscopy for Long Range Coupling 远程偶合相关谱 |
$ _9 O* \3 t2 ^$ k5 |7 U
( ], b$ h7 u) D/ I|
& v% I: A0 j r COSY | 5 N( k% X# `: H3 s
- V2 r- X' R) X9 g/ |' p) v ( Homonuclear chemical shift ) COrrelation SpectroscopY (同核化学位移)相关谱 |
+ M- I0 o# m1 ?6 _/ a! h! V
' x; s$ a1 D. ^| % T8 ?/ B: \4 N5 ^6 h9 r$ i( o2 M
CP | 3 z& E8 X2 }" [+ K
( \( @- P4 e6 m; k- u! d Cross Polarization 交叉极化 |
4 K( L2 ^- R1 O" B* ~' Q
3 M9 G) ]5 M1 A+ L. G; v( d| 6 T! {4 `! E: \7 i/ U
CP/MAS |
3 [3 B Z, M, `0 H) f* Y
8 q) S/ j9 a4 I# [ w3 l; Q8 z Cross Polarization / Magic Angle Spinning 交叉极化魔角自旋 |
& _7 H7 h9 O' x$ C# x5 C1 ]
/ S+ r: T( j. g7 o2 L+ y
|
" P3 F3 F3 E2 J CSA |
2 D5 O. u. d; y; \2 L H3 |% Q+ a4 U9 T @4 x6 d7 s& ]
Chemical Shift Anisotropy 化学位移各向异性 |
9 [( s$ b) x) q6 M3 f( b* f* o3 Z5 H9 {4 k w5 Y
|
! B/ V- W' Y( @2 w CSCM | r2 G% i( U4 l$ ~' v
) u7 M& z* R. K) u' S' N; \% i
Chemical Shift Correlation Map 化学位移相关图 |
' z. R6 W& C; S3 d+ K4 K; j" G* T2 ]5 ~
|
2 C$ f9 a; M. i- {& P CW | $ {1 F' Y; F1 ^" _# F
7 O6 Y" a! |# y- ?' K) U& `. N/ ?3 f continuous wave 连续波 |
8 C. `, M+ |1 W' i
1 g' F+ ` p5 Q B& [$ t| 9 u! F1 K% F2 l5 J1 V
DD | . Y5 S/ g. C h- I Q4 D5 H ]- Z
8 y; h8 S7 d# @+ [2 U Dipole-Dipole 偶极-偶极 |
5 G5 F$ P8 z2 t
7 l4 s! P# @7 d
| , x \" {% `0 ]5 S/ f; o9 `( h6 z
DECSY | 3 Y; a$ A* E6 a: l0 {
. u/ `5 B5 w8 g" S$ L Double-quantum Echo Correlated Spectroscopy 双量子回波相关谱 |
% H* J3 z) D( [. v8 x; \$ `& H6 e f3 q5 W8 j. ]
|
- ^# K0 u. P( P+ p5 R DEPT |
* Z6 U) j8 J: P. c4 u+ \: A8 ~7 Z) S( @; D; [* b4 _
Distortionless Enhancement by Polarization Transfer 无畸变极化转移增强 |
7 U- ]5 k* l0 G! b5 i
9 e0 _ Y+ u, Z/ b* k8 S) Q
|
2 s* G& |9 M9 ], K; X2 a 2DFTS | % o- K9 D8 n9 @5 m7 B( R( L
0 I' ]5 R% ~/ V* R+ U
two Dimensional FT Spectroscopy 二维傅立叶变换谱 |
& M0 q+ m4 M$ r8 g- Q+ Z- Y' k- P* a! G# R* g, O) s1 z
|
" }, {) M* P5 q5 @8 E DNMR |
+ u" M$ ]$ c2 k5 D. i7 [/ v# d& u( l' M m
Dynamic NMR 动态NMR |
+ A4 C5 j/ x0 O4 z9 t5 `8 U f/ c7 R
| 7 e$ g$ T$ S; ^! v+ `* W3 E
DNP |
2 t( W O# I! x* m, H
) i/ `# m, a) A& X' }# D Dynamic Nuclear Polarization 动态核极化 |
- H( p0 s, i, P, L) A) w- b
" I" Z3 W* I+ \' z
|
' V% U1 q. A3 R6 p" R DQ(C) |
- S1 Z! i+ G, D3 b5 A7 t. L* g7 C$ m6 `7 p6 O
Double Quantum (Coherence) 双量子(相干) |
0 h2 L H* D4 X6 B0 x8 [+ A# `* _7 x, S+ [ q4 } E
| . g4 A8 m* V% j& r2 V d0 Q/ D7 S
DQD |
4 z# q' A% n+ V" n; Z* G9 }
) x" o; G5 e; f" R; Y Digital Quadrature Detection 数字正交检测 |
$ z3 }+ m5 X# \; E
- [7 y0 e% x4 v7 X, s! d3 n' z| / Q3 D: ^# U) o* \3 k' t
DQF | 2 {' Q6 s2 U4 b* a! {8 G
& }! E" `* W1 M) W7 s2 B
Double Quantum Filter 双量子滤波 |
' t( j6 e: i% w/ ]! }& Q( h H8 D0 _; M3 i. D$ ^* D
|
) Q/ |/ e& j" E3 w& g/ V DQF-COSY | 9 l0 |- T5 v/ g3 a; [, C: X
1 E9 I, k4 ~! l
Double Quantum Filtered COSY 双量子滤波COSY |
+ g% k' m* q) q; L
# e) S1 w7 X7 W* A|
: v9 U, l2 K; {" O R) z DRDS |
4 ^0 e+ o; m0 ^# x$ E
4 ?. B+ b3 g, T Double Resonance Difference Spectroscopy 双共振差谱 |
# e3 K7 _6 k' u1 |1 M7 [+ G
I" i* }, a; F. T
|
6 z1 ^: p& ^, K. N. J; ` EXSY | 4 R4 {+ I5 h% r% F' z
8 m& _' N$ t% f; M* y Exchange Spectroscopy 交换谱 |
5 m9 ~- C( _2 g' K
; J* f5 R* A) P. x|
: t$ q1 Q* \/ d# @& r2 s: i) Z" s$ l FFT |
9 m2 f- Y3 ?# L2 ~3 O z" \! \5 ]& E* H
Fast Fourier Transformation 快速傅立叶变换 |
0 B, E) f- W- [# S" I$ D
0 a3 H3 P* b( W& X|
* k1 U, @' y4 e4 {# r) d: c FID |
: `* \4 Y' f) c6 u1 e9 P( X" K' O
/ T+ P2 H" U2 |$ d Free Induction Decay 自由诱导衰减 |
% O0 k- j0 Y) h# V2 d; z! P- l' b% L# y" g
| 4 x1 ^9 g' m, y+ Q4 J
H,C-COSY | , ]8 b5 V" d; ?- Y- }6 a2 \$ W
5 L- R7 O! [7 n' ?$ T
1H,13C chemical-shift COrrelation SpectroscopY 1H,13C化学位移相关谱 |
! `2 w) c9 F. _6 Y6 H9 o" u
1 k( Y$ ~$ X8 n0 W$ s- w9 i) [|
. b4 E- k! [ r8 i$ l6 E H,X-COSY | 9 c0 R! m) |& y& w4 T# P+ E
' H4 M9 A9 k: L+ }$ z 1H,X-nucleus chemical-shift COrrelation SpectroscopY 1H,X-核化学位移相关谱 |
$ ?: f' k8 i# ^4 d- e% {1 ?
% p) }: g& I3 Q, z! z
|
G' n6 P3 o; ^6 R8 v HETCOR |
; R9 ^* a! l8 @7 `( ]+ c" S. F9 o0 C
Heteronuclear Correlation Spectroscopy 异核相关谱 |
/ k) C8 `, A# l3 o- F# e) y: ^0 y
- g! Z2 s4 b* R0 \' S| 1 J& b# t$ D+ H8 [) s/ ]6 m: g
HMBC |
- }: S D; n V: g Z9 U; ~: }, c; \: j* K# G- {) F$ G
Heteronuclear Multiple-Bond Correlation 异核多键相关 |
+ \7 C0 |* R0 G& m; [9 J* x, x& f; h% c7 C# U x" V) Q
| 6 l; d! g, _6 S. o& g; Z
HMQC |
* y' o; k& r) ~
8 x% ?! P0 [# B- m$ i% I! U Heteronuclear Multiple Quantum Coherence异核多量子相干 |
$ K* q& E0 m2 C% {9 X6 p! J: `- {. Q
' s* R- a B& A3 w/ C
|
" T6 j& h- t: P; S* X( q. K- a HOESY |
8 N3 U! L( O( h3 S5 G2 y/ i. ?! L4 R* P1 e8 X
Heteronuclear Overhauser Effect Spectroscopy 异核Overhause效应谱 |
' D; l( z( D( [9 u. V) d
. z* R; {% l5 n2 t, j& Y5 v( ]|
. x( d" V5 ]% j HOHAHA |
8 U' K) S7 J+ R# W# I2 y$ L+ a; E! j, j* X+ P
Homonuclear Hartmann-Hahn spectroscopy 同核Hartmann-Hahn谱 |
; \8 B/ x ?5 E6 D1 F0 P1 m
# N/ X6 n0 I: l3 K" Q5 Z/ X" H| * V- e; s3 D% C8 n/ a
HR | P$ g/ B% s3 L3 U4 ?4 ^; x
& F9 X# a; b9 s. i. r: I
High Resolution 高分辨 |
0 _& ^& @. Z( `; Z0 C$ C! g" `
2 [% X) K6 f$ h7 f1 Z4 v8 Z; e! f| 4 Q: c( `* H/ c: e3 s# B
HSQC |
8 h) }9 z5 ]3 b+ E+ W e
' O ^$ T; h: w4 A" u! ^& e( x: O" g2 Z
2 Y! g" U; \4 W+ Q& Y& Y- d
/ z8 }6 n" e1 l' Z. l: q
: N' V: p+ l% f% G$ A
|
2 X* u% Q: R" m% O, K |
$ l" ]8 K" {7 K; t+ X8 P& r! v( K _: qHeteronuclear Single Quantum Coherence 异核单量子相干 |
* w p% `. m- b
. G; l$ F( F; Z3 J- Y9 q! X| 2 L- Q3 c7 ]7 `4 n
INADEQUATE |
4 Y* X" o/ z; ?: L" G) f) S8 {
" {3 @' s3 o/ p" |% y0 H 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) |
6 S: d5 `& q/ h e! s) w6 u
1 t" k! f r9 y( K" a5 [4 m0 q$ |% U|
/ V# `; E4 S- N, @ INDOR | 3 f g$ R% b2 a
[. y9 Q! }+ E1 w$ `% \
Internuclear Double Resonance 核间双共振 |
6 |, w3 ?, [1 [$ G, z0 s C
7 ^( b( E+ f e| @. c! H4 j/ d. P
INEPT | 4 G1 R% i9 E) l" x+ Q) D* `$ d+ O( l) n
e! ?, Q- d. @% y3 \) y Insensitive Nuclei Enhanced by Polarization 非灵敏核极化转移增强 |
& A+ t( m( @7 k$ B4 B
3 b0 S$ E; A: o$ Z( G @
| 7 \( a y* Y) G* A
INVERSE | 3 ?0 h- S: r& X4 \9 H& i7 ^
" @4 N6 U! t4 g4 z H,X correlation via 1H detection 检测1H的H,X核相关 |
2 R; T% |% ~" K7 T6 `4 R# I
3 ^& y6 f( P# {0 w: E4 c# Z|
1 j; E; S: E: `7 {% a IR | ! b8 o" }! d- q: n6 Q
; V; x( T" m a4 ]" k6 w. I% C5 R' P Inversion-Recovery 反(翻)转回复 |
5 E- l0 ?( T. \
h( Y) z/ N) _ u" ~& ~. ?& v8 u|
" D& F9 {/ T+ @5 f JRES |
: f! T0 L" e! H& \5 Q, b+ j3 w( ?- u# M9 ?/ f5 |
J-resolved spectroscopy J-分解谱 |
* C2 q4 P" s9 ~- K! h0 f
/ G" G p, d( h$ p0 B. x1 S| 4 I8 F- Z1 c' W( X* _2 n8 _' W: m
LIS |
4 O% b( O! R8 e4 j9 @7 I4 ?2 V
6 u( F6 A6 ~9 e& P. ^$ v Lanthanide (chemical shift reagent ) Induced Shift 镧系(化学位移试剂)诱导位移 |
- R# @7 k$ v8 h" w4 o* v+ C
4 d# n) t! D8 T7 C) l4 S$ ~# k| : ^$ \. g4 B' i+ V% k: C
LSR | 7 @. n/ I% ]2 V0 p8 |
" a8 J: Z4 a7 M& G2 p Lanthanide Shift Reagent 镧系位移试剂 |
; [! T% ?9 w% X. y: z) l/ `$ l
! e1 e, {; B. f( p
| ; w5 J5 ~! @. I; _0 d3 h
MAS | " d8 u' B4 a2 U
% U V4 o, | u- R) ?- b; c7 n Magic-Angle Spinning 魔角自旋 |
) t3 I, S1 ~, t9 @
! E' q/ h) u: Y4 s, k# @
| * q1 x( ]. t0 i/ @4 \! K
MQ(C) |
7 k/ p9 J2 c4 _; U7 a$ [1 F9 T7 D: v4 l' s) {
Multiple-Quantum ( Coherence ) 多量子(相干) |
. L; \+ O1 s' }
0 l/ U3 u3 j7 j! s2 \) N8 {# k( I
| ( C; s5 a, y" Q$ N8 \3 j' q
MQF | * x2 D/ j- ]2 P6 M3 b# V
! X% x8 _/ q+ T# V Multiple-Quantum Filter 多量子滤波 |
. A) G9 o( [$ r3 e. C+ w
- v; p9 r/ f# ~| 7 m& a" f! n9 v2 x. i; P+ u
MQMAS | $ |6 ~- o- W% E# s# t; g4 i( h
+ Y& ~) y8 P8 s5 p0 t& g0 ]: c Multiple-Quantum Magic-Angle Spinning 多量子魔角自旋 |
6 y, ^1 }0 j- X( ] X& O8 \
) K3 _7 j; U* n
|
8 M) B' m) W0 g. N. | MQS | 3 _1 `9 y. T9 @& I: z
& E' J g: u* t3 ^- n
Multi Quantum Spectroscopy 多量子谱 |
! \8 f2 l4 P/ O3 _( h0 ?( D! \; v+ X8 }8 q$ E3 e" K" f) s4 M/ ]7 z
|
6 g1 J6 E9 e" S/ v. Y! W NMR | , A( K7 p* Y" Y5 w) x7 g/ @
! V7 n, z8 D* H* W9 k& u1 Y
Nuclear Magnetic Resonance 核磁共振 |
) A, W$ t% O3 @. H/ f7 _- z
/ b/ Z; J8 u0 I8 z- f5 D3 Y
| 4 g& p& N' @* l) J/ n- F
NOE |
! M. d) n6 V2 G' T: [
, O+ e7 l K% s. P; s: E. C Nuclear Overhauser Effect 核Overhauser效应(NOE) |
; R9 W1 i) w/ U+ J$ M
- y5 j# b0 b/ g) G& T6 E|
5 B5 [8 s9 f& g' c6 q NOESY | , G7 G2 D! x' d5 B6 e2 S
9 R- x6 H. H8 l; @+ i4 N
Nuclear Overhauser Effect Spectroscopy 二维NOE谱 |
" t6 O! F+ T1 Q, q) d& p6 }
2 f4 x& F) ]4 F$ W$ i8 F| : D* ?4 n0 }3 A/ s: D0 ~ e% Z
NQR | 2 m! _. I5 g0 L: p9 S
7 {6 n2 p' t3 n* s. T
Nuclear Quadrupole Resonance 核四极共振 |
8 X8 D* K1 h* K- U* ]! o
7 J. J+ u7 K& O| % y) O: u. v5 I& m' y! t# y
PFG | 0 r2 H$ H8 t V# _/ d
; ]/ r H: M( W
Pulsed Gradient Field 脉冲梯度场 |
, J( Q* H$ R" D& F' _
& m# K4 b' \$ t; k; h|
6 ~+ X; H1 y' Z# r PGSE |
8 t3 F; E6 B m* l
8 w& c0 Z1 ? j2 t; t/ L7 }- m3 y. Z Pulsed Gradient Spin Echo 脉冲梯度自旋回波 |
: r C X, B5 [1 M0 m V% I
& G3 m; X' ~, R% o8 p+ {* n6 X| 1 v5 }" g! V2 X0 [2 H# W; _$ Y% f
PRFT |
5 \0 o$ ]! T" h9 G8 ]$ N% Q7 A# n6 j& Q( [
Partially Relaxed Fourier Transform 部分弛豫傅立叶变换 |
, ~; G# r% M! D3 d+ l0 N
9 z9 j/ G2 ?* j0 h. B% o|
7 o! I- D$ h% u: s% l" G6 i- R2 ^ PSD | ( _/ N7 h# M+ ~- W1 B- a; |' \2 b
* C8 ]+ t; W6 m. Q
Phase-sensitive Detection 相敏检测 |
4 M9 u- W' T+ v p& K
+ k( V+ L* c6 c0 Z+ L1 Q' ~8 A) v| e: y5 R" Z8 f/ \
PW | , t7 _/ t/ L- V6 _8 W
( D: }4 C" t; _% y h& S- p0 ]
Pulse Width 脉宽 |
: \( l" H5 `- L$ W( N
7 d' I3 s& y- P/ B/ ]( j( r4 H|
j: O! y w% t( q+ A- H# m RCT |
. X, o7 ^3 B. N& j- N- L* ~
) Y% X. f% k+ f8 k4 o Relayed Coherence Transfer 接力相干转移 |
8 x5 N R/ M4 \9 Q3 L1 I
8 T) G9 ]% U% w| # [! M8 [. X/ N5 w( y( L# j
RECSY | ) L4 i/ m ^( B1 `2 K3 H
2 }+ O6 c) Y$ m& j. k* K) O Multistep Relayed Coherence Spectroscopy 多步接力相干谱 |
& I/ v2 |! X! D7 S! B9 u; A. \& S
% e$ ]" c$ m- H( v3 ]3 n( l/ D| 7 w7 V. Q4 W1 c2 \; L( Y9 n
REDOR | ; d/ ]1 |8 \. l
5 a9 D, N2 ~* H& V$ f; s2 I4 u
Rotational Echo Double Resonance 旋转回波双共振 |
% Z% e! W, L" u I& w+ X
# ]$ M7 F3 X' J; Z: E| 8 ~$ ~; J( T. t- N1 `
RELAY | 2 I) V( F/ X1 V
! c9 {- s2 c# m
Relayed Correlation Spectroscopy 接力相关谱 |
3 b* N6 t. d# ^/ @: m2 B, m5 R; j
& e8 d; ]- h9 i( H* g% p4 [$ |( T| * W0 G' B( l% K# b
RF |
1 ]4 y% [# z% \5 @5 S9 C5 j( t9 B+ C* e
Radio Frequency 射频 |
8 x6 @$ I6 e/ U) K5 x q; L
% ~0 |9 d; M% F- u7 p| 9 S6 e0 ~( U$ l+ g) T: X1 e
ROESY |
7 O9 t# e% |+ M1 V$ F! C1 j/ h% u! H5 p4 `0 i
Rotating Frame Overhauser Effect Spectroscopy 旋转坐标系NOE谱 |
2 y* n" ]; q# W' ]" N1 N3 r" {! N2 [5 `( y( _0 G7 u
| $ K8 X# h6 U( I1 h
ROTO | - [' y- r: F) B- @/ f, w- ]) b
+ M: Y) w7 F) _( V/ w
ROESY-TOCSY Relay ROESY-TOCSY 接力谱 |
% t: _4 c' u- g3 Q5 U9 o+ U
8 D J. `9 h1 n- ?6 S D9 u y+ P7 @) A
| " r* G0 q" x! {; ^/ |
SC |
/ Y/ L( @& D6 i) V$ ^# D0 j, T) k& ^* V
Scalar Coupling 标量偶合 |
/ m9 a) j; W9 ]) k$ o- q2 ?
3 a! Y6 R6 A! v* P$ k| ; k" X) ^- ]' c6 h0 z# j9 L
SDDS |
, m% @) c- s, X( C& a0 P- j& X% f9 P {; M% s5 E
Spin Decoupling Difference Spectroscopy 自旋去偶差谱 |
+ f) t) L2 p1 |, g' D/ G. v
: Z8 h* a. U4 Z$ A9 e: f$ Y|
! x5 W. r3 u8 v* S. E+ n) {' v SE |
; N% ~. i% z; x+ R% h! h2 Q- c5 K% m+ P2 w
Spin Echo 自旋回波 |
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5 d5 C2 @3 S% h V
| 5 z. a4 ] Y3 A& O& C I" c9 w
SECSY |
4 n+ F1 Y: @" t Y) l* L
0 j- s9 k$ H; L- Q5 f; g Spin-Echo Correlated Spectroscopy自旋回波相关谱 |
3 u" n$ v) q8 o! W/ M O! M! c: |0 J
" n) @* j0 a- m, J+ ]| 3 a! Q1 h, A4 L) X' G* Q
SEDOR |
# ?' D0 J9 J C# b- D/ e0 Q( m. D. l+ x! s
Spin Echo Double Resonance 自旋回波双共振 |
% r4 r/ Q8 C) X" w4 \: W2 l
7 P( a* V9 M4 d+ e( R \3 c# p( e| ( M3 w1 m& Q1 l% W9 y# `# E& J
SEFT | 4 [3 U; I& P2 h
" Z- k! w% ?; u% m& i1 i Spin-Echo Fourier Transform Spectroscopy (with J modulation) (J-调制)自旋回波傅立叶变换谱 |
5 I$ S0 }; b- t3 B( a0 p4 \" l; ]( g- z8 y5 G
| % I0 L5 [3 g& M! D* E" s; ^
SELINCOR | % W: ]9 R) F( Y" b6 H+ e
& D0 |. t! F# A/ {6 H }/ I
Selective Inverse Correlation 选择性反相关 |
* v% v3 l8 B# b9 q, ~' s$ c+ H6 k R, u: E' n1 Z8 }( S- O' C
| . W* {# R1 \7 S( s r
SELINQUATE |
6 ^2 T: t; J; S$ J( r' z2 K# B7 n" L" S) e* S6 |6 M
Selective INADEQUATE 选择性双量子(实验) |
3 ^) Y: I1 t8 M6 _, e
3 Q3 r6 h& Y5 N4 _2 g4 ]| & ~% f1 \* Z4 L/ n( {% o
SFORD |
. E- w, T5 C' u! ]" n' c! H4 U1 s% j- P3 ^
Single Frequency Off-Resonance Decoupling 单频偏共振去偶 |
0 u w1 B2 t- U" m4 n9 B
0 ]7 x4 k/ _) S9 \6 N|
3 ]0 t; S9 B- \4 z SNR or S/N | ; U) J; n7 T3 Q/ W& I5 I
) n% e U9 h0 K* H1 o I
Signal-to-noise Ratio 信 / 燥比 |
; l# x' {* e$ x! m8 L9 { C3 T/ \8 L3 J; T
| 3 P4 G, P! X# z- H6 c3 e) W" r
SQF | . i$ v1 u4 r, H. f
% o% k3 M) ]0 {2 ^7 U, G$ x
Single-Quantum Filter 单量子滤波 |
3 j' U! f* ~* m' m
: S1 c3 p4 q& w& {% J5 @& c0 ?| : _9 l5 A8 ^3 L* }4 [
SR |
# H! Q- E0 Z0 [
' M: m) ~( o$ l: n6 X Saturation-Recovery 饱和恢复 |
7 F" d9 N0 K1 v. |: w
: E' s! I" y( z: @
| 1 ]9 x1 e3 K( A; R9 [+ s; V4 [
TCF |
$ c/ n: }, L+ E0 Q8 i3 M/ x' g0 v* S, Z
Time Correlation Function 时间相关涵数 |
$ n: [1 i: { L' w; }/ `$ U, x/ x+ D/ J; S* t+ B
| ; i' ^' a9 C4 y4 j2 T
TOCSY | 8 u% Z% M ~: c$ o9 k, |# d( \. t. }
8 ?9 [$ N4 r. s0 G) V5 ]
Total Correlation Spectroscopy 全(总)相关谱 |
3 t! V, b& E. S3 |7 R3 z) C- [
( ]: N% s- F; k4 G| . N0 g. B( |6 V
TORO |
f7 M/ d# ?1 j" l' P: S" I; ^* E* m
9 L( p3 R% ^6 v# ?: E) I TOCSY-ROESY Relay TOCSY-ROESY接力 |
- T7 E3 y$ J, t+ Q7 Z2 M
/ D# Q% r3 p( K+ S# A, e
| " h" Y+ D H4 H
TQF |
4 i% n( A7 W5 E$ f2 b# O
: V, t4 }- S$ c: L0 `6 ` Triple-Quantum Filter 三量子滤波 |
+ w$ G6 Y. w2 Z) e. e/ _% _$ P
2 D- K/ T- B# }1 a. W0 `. Y- j|
: `. N" }; j9 V WALTZ-16 |
: t( P- V" f; W. f: J& l. s e, [9 E
A broadband decoupling sequence 宽带去偶序列 |
4 r a4 y' A$ f6 B4 M" L
% ^% Y7 l8 T7 W: q ]4 A6 S
|
3 z' X8 c) R+ s) [5 E WATERGATE |
- ]8 \$ {3 K N! h/ A! `8 p
; j k# g# ]9 B; N) k Water suppression pulse sequence 水峰压制脉冲序列 |
7 |7 _( A6 J' o; {2 ~: m
# u6 |3 J: g6 B3 u% o" K
| 2 B" ]% I/ x! [' ]! k2 A. _0 s
WEFT |
& G* d. g6 m( w% e7 f0 X, \% s' s$ J. m( E
Water Eliminated Fourier Transform 水峰消除傅立叶变换 |
8 X" m0 A# G3 p! x9 }
4 ]3 l }1 a2 o E
| 7 Q7 X: u1 o$ P( _4 o1 j
ZQ(C) |
, K* C# C3 Z, d% A2 @5 E" z
% p! l4 N( k* n+ f5 Z Zero-Quantum (Coherence) 零量子相干 |
0 Y8 @( d/ j- L5 B% j7 n; v: ]; W6 }+ j) m- Y9 |/ `
| - ^0 S! \, @0 ] P
ZQF |
+ O7 G7 x! e3 t/ ?9 e
/ c: g9 e3 H* o, N) {( }8 [ Zero-Quantum Filter 零量子滤波 |
g3 s4 |$ k' q0 r& N4 c- }2 _4 j9 m& ^ O# u
|
/ n# {& J N& v2 Q0 ^! z1 K0 u T1 |
+ X4 v4 ~( E& u$ G7 b! }* \$ ~, E* p [; M4 U3 t4 r
Longitudinal (spin-lattice) relaxation time for MZ 纵向(自旋-晶格)弛豫时间 |
: z4 h) a3 z) G7 H1 z7 S% @- d5 I
| 0 {2 V0 g0 S* C1 l8 t
T2 |
~5 t) X; @4 n. N1 S/ o4 Z, ?9 N5 z$ F
Transverse (spin-spin) relaxation time for Mxy 横向(自旋-自旋)弛豫时间 |
1 x2 a6 W, x0 w
" x% x5 Z0 I3 C! n9 c! g| & y7 }# J% e9 w1 |( m3 _
tm |
e4 ]- _4 R4 Z& n8 d& u4 c" m! ~9 o4 u2 F n
mixing time 混合时间 |
: _* ^& c+ |8 q1 T6 n/ J. D$ Y8 l% |6 X9 e j. V4 `# Y
|
6 O, K% t7 L" }: L* Z/ \ τc | ) z% Q9 G; @5 B
( v2 x8 p) ]' O: D
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
