3 <TITLE>ctfWeightMapCreation</TITLE>
6 <H1>ctfWeightMapCreation</H1>
9 Usage: ctfWeightMapCreation
11 [-o[utput] Out (stdout )] :Optional :OutputDataFile
12 [-kV kV (200 )] :Optional :AccVol[kV]
13 [-Cs Cs (1.7 )] :Optional :Cs[mm]
14 [-df Defocus (2.7 )] :Essential :Defocus[A]:under(+)
15 [-white WhiteNoise (1.0 )] :Optional :WhiteNoise(N/S)
16 [-noise Noise (NULL )] :Optional :Noise Power Spectrum
17 [-splusn SplusN (NULL )] :Optional :Signal+Noise Power Spectrum
18 [-dRinv dRinv (1024*5/3 )] :Essential :dRinv[A]
19 [-dRmaxInv dRmaxInv (10.0 )] :Essential :dRmaxInv[A]
20 [-SinWin SinWinRminInv (20.0 )SinWinRmaxInv (10.0 )] :Optional :RminInv[A] RmaxInv[A]
21 [-c[onfig] configFile (NULL )] :Optional :ConfigurationFile
22 [-m[ode] mode (0 )] :Optional :Mode
24 0: No correction : F = G
25 1: Phase contrast : F = G*(H/abs(H))(Only 1 or -1)
26 2: Phase contrast : F = G*H (Winer filter (S/N << 1))
27 3: Phase contrast : F = G/H (Inverse filter)
28 4: Phase contrast : F = G*(H/(H*H + N*N)) (Winer filter (white noise : Required Option -white))
29 5: Phase contrast : F = G*(H/abs(H)*abs(G*G-N*N)/(G*G)) (Winer filter: Required Option -noise, -splusn))