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: http://www.naic.edu/~astro/spectral_line/handbook_old/app/old_hi.html
Дата изменения: Wed Sep 20 02:27:49 2000 Дата индексирования: Sun Dec 23 04:49:43 2007 Кодировка: Поисковые слова: apollo 11 |
This appendix contains example analyz sequences used to look at HI spectra.
This routine takes the average of the (gain/za corrected) dumps in each scan, and analysis is done on the individual correlator sections. Thus if you have the correlators overapping in frequency, and the galaxy therefore shows up in more than one correlator this routine will only look at one `detection' at a time. The commands to by typed are in boldface, followed by a description of the command. For help with these routines contact Karen O'Neil (koneil@naic.edu). All this assume you have run once analyz before. If you have not, please go to http://www.naic.edu/~astro/spectral_line/analyz/old and load HI_before01jan00.cmd, mjsr.o, and baseh.o into you analyz directories. Additionally, if you have not run analyz before, instruction (2) should read: If you have not, instruction (3) should read:
DESCRIPTION of the above commands:
EXAMPLE using OLD routines (this data will be available for public use):
FIRST time: % cd analyz % analyz Enter your initials [array size and number of STO/RCL registers optional] > temp 16284 800 File ANZ_BASE/site/syslib.anz attached as SYSLIB. Enter <CR> or select an FLIB from the following: corv1 CORLIB for data prior to:07mar00 corv2 CORLIB for data after :06mar00 FLIB> corv1 File ANZ_BASE/site/corv1lib.anz attached as FLIB. >>> Creating a file for the stack and sto/rcl registers <<< Attaching temppanz.anz as STO/RCL file. Your arrays are 16384 elements long, and you have 800 sto/rcl registers. None of your sto/rcl registers are kept in main memory. Loading... PL X Y Z T HDR File templib.anz attached as ULIB1 Welcome to Analyz, version 5.16 patchlevel 2 >~/share/koneil/ahbook/hiold.cmd Error 144: ANALYZ fault: unrecognized command structure >exit STOP: ANALYZ exit Note: Following IEEE floating-point traps enabled; see ieee_handler(3M): Overflow; Division by Zero; Invalid Operand; Sun's implementation of IEEE arithmetic is discussed in the Numerical Computation Guide. %analyz Enter your initials [array size and number of STO/RCL registers optional] >temp Enter <CR> or select an FLIB from the following: corv1 CORLIB for data prior to:07mar00 corv2 CORLIB for data after :06mar00 FLIB>corv1 File ANZ_BASE/site/corv1lib.anz attached as FLIB. Attaching tempanz.anz as STO/RCL file. Your arrays are 16384 elements long, and you have 800 sto/rcl registers. None of your sto/rcl registers are kept in main memory. Loading... PL X Y Z T HDR File templib.anz attached as ULIB1. Welcome to Analyz, version 5.16 patchlevel 2 File /usr/local/phil/philib.anz attached as ULIB2. > > attach "/proj/a1366/corfile.18feb00.a1366.2" data File /proj/a1366/corfile.18feb00.a1366.2 attached as DATA. Status = OLD; access = SEQUENTIAL; form = UNFORMATTED > corget loading via: ANZ_BASE/tools/ld -N -x -A /usr/local/bin/analyz.exe -T 0359c00 -o a.out ANZ_BASE/external/extern_main.o ANZ_BASE/external/libextern.a -LANZ_BASE/external -l F77 -lm -lc New program text loaded successfully. Created new array named @ci Created new array named @frqa Created new array named @frqb Scan grp time bw integ bd lag pwrRatio power attn num ofRec Num secs id cfg ratio counters db 4900128 1 55050 1 1.000 6 8 1.067 0.995 56629 49613 -1 -1 1.0 4900128 1 55050 1 1.000 7 8 0.957 1.038 42919 48003 -1 -1 1.0 4900128 1 55050 1 1.000 8 8 1.088 0.968 52573 49050 -1 -1 1.0 4900128 1 55050 1 1.000 9 8 0.929 1.100 44908 53388 -1 -1 1.0 >setfrq 1262.5 1307.5 1352.5 1397.5 >redlw 132 120 ..... mean | N | rms | skewness | kurtosis 4.9025E-02 | 16384 | 2.215 | 107.4 | 1.2964E+04 on/off -1 raw in 100 - 219.0 Scan grp time bw integ bd lag pwrRatio power attn num ofRec Num secs id cfg ratio counters db 4900132 1 60710 1 1.000 6 8 0.902 1.061 49512 52429 -1 -1 1.0 4900132 1 60710 1 1.000 7 8 1.017 1.111 45853 51781 -1 -1 1.0 4900132 1 60710 1 1.000 8 8 0.926 1.035 46470 53400 -1 -1 1.0 4900132 1 60710 1 1.000 9 8 0.983 0.930 47183 46043 -1 -1 1.0 Created new array named @tmp2 Created new array named @tmp4 on/off -1 corr in 220.0 - 339.0 on/off -1 corrected average in 340.0 on/off -1 corr, AB avg'd in 341.0 42.00 mean | N | rms | skewness | kurtosis -5.9280E-05 | 8192 | 2.108 | 4.355 | 1521. rms subtracted data in 43 > rcl 43;ver 0 0.05;plot > hor 7000 7500;plot > getres 7000 7500 loading via: ANZ_BASE/tools/ld -N -x -A /usr/local/bin/analyz.exe -T 0579400 -o a.out baseh.o -LANZ_BASE/external -lF77 -lm -lc New program text loaded successfully. Set base regions, with crosshair: Hit space key after each positioning, DO NOT touch mouse button! Hit Q after last (rightmost) limit. Limits are: 2 481 92 293 0 0 0 0 0 0 Are limits OK? (y/n) [y] y Order rms Ftest 1 0.002 0.367 2 0.002 3.652 3 0.002 0.611 4 0.002 0.173 5 0.002 0.197 What order do you want? 1 loading via: ANZ_BASE/tools/ld -N -x -A /usr/local/bin/analyz.exe -T 059e000 -o a.out msrj.o -LANZ_BASE/external -lF77 -lm -lc New program text loaded successfully. ow flag LEFT side chan for area bounds. Hit any key. Flag RIGHT side channel. Hit any key. Happy with the choice of bounds? (y/n) [y] y area(150, 241) =-.6971E+01 Center = 4751.21834 Width(161, 238) = -411.97125 area(150, 241) =-.6971E+01 Center = 4733.19330 Width(154, 241) = -527.34014 area(150, 241) =-.6971E+01 Center = 4747.34298 Width(169, 232) = -340.31012 area(150, 241) =-.6971E+01 Center = 4754.72229 Width(156, 241) = -457.31378 area(150, 241) =-.7007E+01 Center = 4763.60470 Width(152, 243) = -481.15713 area = -.6971E+01 Ok? (y/n or e (for exit))e MSR Done... >
________________________________________________If RFI is a problem with your data, one way of reducing its effects is to take have a large number of dumps and take the median, rather than the average of the dumps (i.e. set the dumplegth to 6s and still take 5 minute scans). In this case you can replace "(7) doit <rec> <num>" with "(7) mednf <reg num> <rec> <num>", where register number should be above 100. This will dump the median (rather than the average) of the <num> scans into the correct registers. Another alternative, which only works for the l-wide receiver, is to run "(7) medlwf <reg num> <rec> <num>", which will output the data in Jy into the appropriate registers. In this case the results given after the "getfcts" command are alread in Jy and do not need to be converted.
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Karen O'Neil