*2017/02/24 13:32:03.19 *IOS HEADER VERSION 2.0 2016/04/28 2016/06/13 IVF16 *FILE START TIME : UTC 2006/07/29 12:41:17.000 NUMBER OF RECORDS : 206 DATA DESCRIPTION : CTD FILE TYPE : ASCII CRC : C68CF206 NUMBER OF CHANNELS : 10 $TABLE: CHANNELS ! No Name Units Minimum Maximum !--- ---------------------------------- --------------- -------------- -------------- 1 Pressure decibar 2 207 2 Temperature:Primary 'deg C (ITS90)' -1.5666 -0.7191 3 Transmissivity %/metre 44.8 63.9 4 Fluorescence:Calibrated:Seapoint mg/m^3 0.32E-01 0.403 5 Altimeter metres -13.7 100 6 Oxygen:Dissolved:SBE mL/L 5.94 9.82 7 Salinity:T0:C0 PSS-78 26.5352 33.293 8 Number_of_bin_records n/a 22 387 9 Flag n/a 222 662 10 Oxygen:Dissolved:SBE umol/kg 258.26 427.88 $END $TABLE: CHANNEL DETAIL ! No Pad Start Width Format Type Decimal_Places !--- ---- ----- ----- ------ ---- -------------- 1 -99 ' ' 10 F ' ' 3 2 -99 ' ' 9 F ' ' 4 3 -99 ' ' 6 F ' ' 1 4 -99 ' ' 8 F ' ' 3 5 -99 ' ' 7 F ' ' 1 6 -99 ' ' 8 F ' ' 3 7 -99 ' ' 9 F ' ' 4 8 -99 ' ' 5 F ' ' 0 9 -99 ' ' 11 E ' ' 3 10 -99 ' ' 8 F ' ' 2 $END $REMARKS CTD Flag word has 3 columns: Temperature, Conductivity, and Oxygen. Data quality is expressed with the following flags: -------------------------------------------------------------------------------- 0 = No Quality Control. 2 = Good. 6 = Interpolated or replaced by dual sensor or upcast value. -------------------------------------------------------------------------------- This file converted from Sea-Bird file: C:\Users\zimmermanns\Documents\GArchi $END *ADMINISTRATION MISSION : 2006-18 AGENCY : IOS, Ocean Sciences Division, Sidney, B.C. COUNTRY : Canada PROJECT : Joint Ocean Ice Study (JOIS incl JWACS and BGOS) SCIENTIST : McLaughlin F. PLATFORM : Louis S. St. Laurent *LOCATION GEOGRAPHIC AREA : Arctic Ocean's Canada Basin STATION : PE1 EVENT NUMBER : 1 LATITUDE : 74 14.56000 N ! (deg min) LONGITUDE : 95 23.03000 W ! (deg min) WATER DEPTH : 210.704 ALTIMETER (M) : 6.055 ! custom item $REMARKS Altimeter value is distance from bottom and is calculated as the median of the deepest 2 metres of data. $END *INSTRUMENT TYPE : Sea-Bird CTD MODEL : SBE-911plus SERIAL NUMBER : 0724 $TABLE: SENSORS ! Name Abs Depth Serial No ! ------------------------- -------------- ---------- temperature:primary ' ' 4322 conductivity:primary ' ' 2809 pressure ' ' 90559 temperature:secondary ' ' 4239 conductivity:secondary ' ' 2810 Fluorometer:Seapoint ' ' 2569 transmissometer:primary ' ' CST-662DR altimeter:Datasonics ' ' 'PSA-916D SN 1161' Oxygen:SBE ' ' 0435 $END $REMARKS SOFTWARE VERSION SEASAVE WIN32 V 5.34 $END *HISTORY $TABLE: PROGRAMS ! Name Vers Date Time Recs In Recs Out ! -------- ------ ---------- -------- --------- --------- SBE_IOS 3.4.1 2015/03/15 18:30:14 206 206 CHGUNITS 3.1 2015/03/15 18:56:38 206 206 HDREDIT2 3.0.2 2015/03/16 09:53:25 ? ? CLEAN 5.2.1 2015/03/18 19:53:36 206 206 CLEAN 5.2.1 2015/03/18 19:58:18 206 206 HDREDIT2 3.1.1 2017/02/24 13:32:03 ? ? $END $REMARKS -CHANGE units: Temperature reference channel: Temperature:Primary [deg C (ITS90)] Salinity reference channel: Salinity:T0:C0 [PSS-78] 'Oxygen:Dissolved:SBE [mL/L]' changed from mL/L to umol/kg -HEADER EDITS: 2015/03/16 09:53:25 Applied edit header: C:\Users\zimmermanns\Documents\GArchiveProcess\CTD\6_Header\2006-18-HDR.TXT -CLEAN functions: 2015/03/18 19:53:36 Reset #RECS, MIN & MAX values in header. Set event to last 3 characters of file name -CLEAN functions: 2015/03/18 19:58:18 Reset #RECS, MIN & MAX values in header. Insert Pad Values in Channel: Transmissivity [%/metre] where channel Transmissivity [%/metre] is in the range -100 to 0.5 0 data records in pad range. -HEADER EDITS: 2017/02/24 13:32:03 Applied edit header: Z:\SHARE\DATA\Data Archive Process - 2017\Joe's work\2006-18\Headers\2006-18 CTD Header.txt Channel 4: Fluorescence:Calibrated:Seapoint [mg/m^3] Name: Fluorescence:URU:Seapoint ==> Fluorescence:Calibrated:Seapoint $END *COMMENTS SBE HEADER Sea-Bird SBE 9 Data File: FileName = C:\LSSL200618\acq\200618_001.DAT Software Version Seasave Win32 V 5.34 Temperature SN = 4322 Conductivity SN = 2809 Number of Bytes Per Scan = 37 Number of Voltage Words = 4 Number of Scans Averaged by the Deck Unit = 1 System UpLoad Time = Jul 29 2006 12:36:11 NMEA Latitude = 74 14.56 N NMEA Longitude = 095 23.03 W NMEA UTC (Time) = Jul 29 2006 12:41:17 Store Lat/Lon Data = Append to Every Scan Ship: Louis S. St. Laurent Cruise: 2006-18 Station: PE1 Depth: 210.704 # nquan = 9 # nvalues = 206 # units = specified # name 0 = prDM: Pressure, Digiquartz [db] # name 1 = t090C: Temperature [ITS-90, deg C] # name 2 = xmiss: Beam Transmission, Chelsea/Seatech [%] # name 3 = flSP: Fluorescence, Seapoint # name 4 = altM: Altimeter [m] # name 5 = sbeox0ML/L: Oxygen, SBE 43 [ml/l] # name 6 = sal00: Salinity, Practical [PSU] # name 7 = nbin: Scans Per Bin # name 8 = flag: # span 0 = 2.000, 207.000 # span 1 = -1.5666, -0.7191 # span 2 = 81.8073, 89.4163 # span 3 = 3.2323e-02, 4.0265e-01 # span 4 = -13.66, 99.99 # span 5 = 5.9400, 9.8200 # span 6 = 26.5352, 33.2930 # span 7 = 22, 387 # span 8 = 2.2200e+02, 6.6200e+02 # interval = decibars: 1 # start_time = Jul 29 2006 12:36:11 # bad_flag = -9.990e-29 # sensor 0 = Frequency 0 temperature, primary, 4322, 24-Feb-06 (IT90) # sensor 1 = Frequency 1 conductivity, primary, 2809, 10-Feb-06, cpcor = -9.57 00e-08 # sensor 2 = Frequency 2 pressure, 90559, 10/29/02 # sensor 3 = Frequency 3 temperature, secondary, 4239, 24-Feb-06 (IT90) # sensor 4 = Frequency 4 conductivity, secondary, 2810, 10-Feb-06, cpcor = -9. 5700e-08 # sensor 5 = Extrnl Volt 0 Fluorometer, Seapoint, primary # sensor 6 = Extrnl Volt 2 transmissometer, primary, CST-662DR, 20-Mar-2003 # sensor 7 = Extrnl Volt 4 altimeter # sensor 8 = Extrnl Volt 7 Oxygen, SBE, primary, 0435, 06 Jun 2006 # datcnv_date = Mar 20 2008 11:57:24, 5.31 # datcnv_in = c:\200618\ctdproc\200618_001.dat c:\200618\ctdproc\200618_DO_0820_ 0435_v2_remove0820.con # datcnv_skipover = 8000 # alignctd_date = Mar 20 2008 11:57:25, 5.31 # alignctd_in = c:\200618\ctdproc\200618_001-d.cnv # alignctd_adv = sbeox0V 8.000 # wildedit_date = Mar 20 2008 11:57:27, 5.31 # wildedit_in = c:\200618\ctdproc\200618_001-d-a.cnv # wildedit_pass1_nstd = 10.0 # wildedit_pass2_nstd = 20.0 # wildedit_pass2_mindelta = 0.000e+000 # wildedit_npoint = 100 # wildedit_vars = prDM depSM t090C t190C c0mS/cm c1mS/cm sbeox0V xmiss flSP altM # wildedit_excl_bad_scans = yes # celltm_date = Mar 20 2008 11:57:29, 5.31 # celltm_in = c:\200618\ctdproc\200618_001-d-a-w.cnv # celltm_alpha = 0.0300, 0.0300 # celltm_tau = 7.0000, 7.0000 # celltm_temp_sensor_use_for_cond = primary, secondary # filter_date = Mar 20 2008 11:57:30, 5.31 # filter_in = c:\200618\ctdproc\200618_001-d-a-w-c.cnv # filter_low_pass_tc_A = 0.030 # filter_low_pass_tc_B = 0.150 # filter_low_pass_A_vars = c0mS/cm c1mS/cm # filter_low_pass_B_vars = prDM depSM # loopedit_date = Mar 20 2008 11:57:33, 5.31 # loopedit_in = c:\200618\ctdproc\200618_001-d-a-w-c-f.cnv # loopedit_minVelocity = 0.000 # loopedit_excl_bad_scans = yes # Derive_date = Mar 20 2008 11:57:36, 5.31 # Derive_in = c:\200618\ctdproc\200618_001-d-a-w-c-f-l.cnv c:\200618\ctdproc\200 618_DO_0820_0435_v2_remove0820.con # derive_time_window_docdt = seconds: 1 # binavg_date = Mar 20 2008 11:57:38, 5.31 # binavg_in = c:\200618\ctdproc\200618_001-d-a-w-c-f-l-d.cnv # binavg_bintype = decibars # binavg_binsize = 1 # binavg_excl_bad_scans = yes # binavg_skipover = 0 # binavg_surface_bin = no, min = 0.000, max = 0.000, value = 0.000 # Derive_date = Mar 20 2008 11:57:40, 5.31 # Derive_in = c:\200618\ctdproc\200618_001-d-a-w-c-f-l-d-b.cnv c:\200618\ctdproc \200618_DO_0820_0435_v2_remove0820.con # strip_date = Mar 20 2008 11:57:40, 5.31 # strip_in = c:\200618\ctdproc\200618_001-d-a-w-c-f-l-d-b-d.cnv # split_date = Mar 20 2008 11:57:40, 5.31 # split_in = c:\200618\ctdproc\200618_001-d-a-w-c-f-l-d-b-d.cnv # split_excl_bad_scans = yes # strip_date = Mar 15 2015 18:25:17, 7.23.2 # strip_in = C:\Users\zimmermanns\Documents\GArchiveProcess\CTD\2_Renamed\2006-1 8-0001.cnv # file_type = ascii END* --------------------------------------------------------------------------------- CTD Data Processing Notes: -------------------------- For full details see report "Physical, chemical and zooplankton data from the Canada Basin and Canadian Arctic Archipelago, July 20 to September 14, 2006." cited below. Standard seabird processing steps were used. Temperature and conductivity were calibrated with the pre-cruise calibrations. Oxygen and Fluorescence were calibrated to water samples. Transmissometer and Altimeter are not calibrated. Fluorometer notes: Calibration with bottle data performed using bottle chlorophyll values between 0.025 and 0.6 mg/m3. The number of observations used were 36 out of 42 with a standard deviation of 0.02 in the residuals. Coefficients used: Slope: 0.402, Bias 0.0071. Alignment of -4 seconds was used. Oxygen Calibration: A lag of -8 seconds was applied to oxygen voltage in Seabird data processing step Align. The oxygen sensor membrane had attachment problems during cruise due to factory issues. Numerous calibrations were necessary. For the 64 casts, 9 calibrations were applied. See Table 7., page 25 in report "Physical, chemical and zooplankton data from the Canada Basin and Canadian Arctic Archipelago, July 20 to September 14, 2006." cited below. Data Notes: - Although three oxygen sensors were swapped in and out during the cruise, the one sensor that performed well throughout has been labelled primary and the others have been removed from the final data. - Two tranmsissometers were used for casts 49 to 75. They were repositioned on cast 64 changing the naming of which was called primary and which secondary. In summary: Casts 1-48, One Transmissometer, s/n 662 Casts 49-63, Two Transmissometers, s/n 662 is now secondary, s/n 993 is primary Casts 64-75, Two Transmissometers, s/n 662 is primary again, s/n 993 is secondary - Spikes in temperature, conductivity and oxygen have been linearly interpolated over and where needed secondary values (when available) have replaced the primary values. References: 1. McLaughlin, F., Proshutinsky, A., Carmack, E.C., Shimada, K., Brown, K., Corkum, M., Dempsey, M., Drost, H., Eert, J., Green, I., Guay, C., Hutchings, J., Illasiak, J., Jackson, J., Krishfield, R., Li, W.K.W., Maclean, H., Nelson, J., Newhall, K., Nishino, S., Ostrom, W., Smith, J., Steel, M., Sutherland, N., White, L., Yamamoto-Kawai, M., Zhao, J. and Zimmermann, S. 2012. Physical, chemical and zooplankton data from the Canada Basin and Canadian Arctic Archipelago, July 20 to September 14, 2006. Can. Data Rep. Hydrogr. Ocean Sci. 186: x + 373 p. 2. Owens, W. B., and R. C. Millard Jr., 1985, A new algorithm for CTD oxygen calibration. J. Physical Oceanography., 15, 621-631. *CALIBRATION $TABLE: CORRECTED CHANNELS ! Name Units Fmla Pad Coefficients ! --------------------------- -------- ---- ------ ------------ Fluorescence:URU:Seapoint mg/m^3 10 -99 () (0.71E-02 0.402) $END !----1---- ---2---- --3-- ---4--- --5--- ---6--- ---7---- -8-- ----9----- ---10-- !Pressure Temperat Trans Fluores Altime Oxygen: Salinity Numb Flag Oxygen: ! ure: missi cence: ter Dissolv :T0:C0 er_o Dissolv ! Primary vity Calibra ed:SBE ~bin ed:SBE ! ted:Sea _rec ! point ords !--------- -------- ----- ------- ------ ------- -------- ---- ---------- ------- *END OF HEADER 2.000 -0.7354 54.9 0.041 -13.7 9.630 26.5352 26. 0.222E+03 420.95 3.000 -0.7274 44.8 0.052 100.0 9.710 26.8014 31. 0.222E+03 424.35 4.000 -0.7191 47.6 0.063 98.5 9.703 27.7194 30. 0.222E+03 423.74 5.000 -0.8216 50.9 0.071 98.5 9.724 28.4566 26. 0.222E+03 424.41 6.000 -0.8912 51.0 0.084 98.5 9.730 29.1714 26. 0.222E+03 424.43 7.000 -0.9258 52.5 0.092 98.5 9.749 29.5980 27. 0.222E+03 425.12 8.000 -0.9645 51.7 0.106 98.5 9.784 29.9076 23. 0.222E+03 426.54 9.000 -1.0008 49.5 0.110 98.5 9.812 30.1704 23. 0.222E+03 427.67 10.000 -1.0544 50.6 0.106 98.5 9.820 30.5658 24. 0.222E+03 427.88 11.000 -1.0567 51.7 0.107 98.5 9.814 30.6229 22. 0.222E+03 427.60 12.000 -1.0608 52.1 0.126 98.5 9.784 30.6824 24. 0.222E+03 426.28 13.000 -1.0553 52.3 0.174 98.5 9.721 30.7933 23. 0.222E+03 423.49 14.000 -1.0557 52.6 0.247 98.5 9.637 30.8204 23. 0.222E+03 419.82 15.000 -1.0623 52.7 0.323 98.5 9.539 30.8455 23. 0.222E+03 415.55 16.000 -1.0810 52.4 0.403 98.5 9.436 30.9046 22. 0.222E+03 411.04 17.000 -1.0965 51.9 0.401 98.5 9.333 30.9570 23. 0.222E+03 406.54 18.000 -1.1099 52.4 0.352 98.5 9.227 30.9953 23. 0.222E+03 401.91 19.000 -1.1332 53.3 0.354 98.5 9.122 31.0624 23. 0.222E+03 397.31 20.000 -1.1360 54.5 0.335 98.5 9.021 31.0775 24. 0.222E+03 392.91 21.000 -1.1562 55.3 0.311 98.5 8.929 31.1185 23. 0.222E+03 388.89 22.000 -1.1749 55.7 0.308 98.5 8.836 31.1521 23. 0.222E+03 384.83 23.000 -1.2055 56.2 0.304 98.5 8.740 31.2034 23. 0.222E+03 380.63 24.000 -1.2233 56.7 0.295 98.5 8.648 31.2292 24. 0.222E+03 376.62 25.000 -1.2527 57.0 0.290 98.5 8.566 31.2742 23. 0.222E+03 373.03 26.000 -1.2872 57.4 0.288 98.5 8.488 31.3213 23. 0.222E+03 369.62 27.000 -1.3127 57.8 0.284 98.5 8.401 31.3684 23. 0.222E+03 365.82 28.000 -1.3319 58.5 0.277 98.5 8.307 31.4075 24. 0.222E+03 361.71 29.000 -1.3398 59.1 0.287 98.5 8.217 31.4303 23. 0.222E+03 357.79 30.000 -1.3662 59.7 0.285 98.5 8.150 31.4734 23. 0.222E+03 354.86 31.000 -1.3882 60.0 0.287 98.5 8.100 31.5270 24. 0.222E+03 352.67 32.000 -1.3701 60.0 0.302 98.5 8.045 31.5540 23. 0.222E+03 350.27 33.000 -1.3590 60.1 0.313 98.5 7.998 31.5922 24. 0.222E+03 348.21 34.000 -1.3743 60.1 0.312 98.5 7.956 31.6812 23. 0.222E+03 346.36 35.000 -1.3911 59.8 0.294 98.5 7.914 31.7025 24. 0.222E+03 344.52 36.000 -1.4092 60.2 0.286 98.5 7.873 31.7580 23. 0.222E+03 342.72 37.000 -1.4106 60.5 0.272 98.5 7.836 31.8498 24. 0.222E+03 341.09 38.000 -1.4291 60.9 0.198 98.5 7.814 31.9042 23. 0.222E+03 340.11 39.000 -1.4488 61.3 0.194 98.5 7.800 31.9755 24. 0.222E+03 339.48 40.000 -1.4402 61.8 0.185 98.5 7.789 32.0167 23. 0.222E+03 338.99 41.000 -1.4422 62.0 0.179 98.5 7.781 32.0571 24. 0.222E+03 338.64 42.000 -1.4500 62.6 0.166 98.5 7.775 32.0834 23. 0.222E+03 338.37 43.000 -1.4589 62.8 0.154 98.5 7.770 32.1078 24. 0.222E+03 338.14 44.000 -1.4638 62.8 0.148 98.5 7.762 32.1278 23. 0.222E+03 337.79 45.000 -1.4706 62.9 0.167 98.5 7.756 32.1423 24. 0.222E+03 337.52 46.000 -1.4721 63.0 0.123 98.5 7.747 32.1562 23. 0.222E+03 337.13 47.000 -1.4705 62.9 0.129 98.5 7.737 32.1866 24. 0.222E+03 336.69 48.000 -1.4708 62.8 0.131 98.5 7.728 32.2036 24. 0.222E+03 336.29 49.000 -1.4709 62.8 0.115 98.5 7.722 32.2101 23. 0.222E+03 336.03 50.000 -1.4702 62.9 0.130 98.5 7.712 32.2233 24. 0.222E+03 335.59 51.000 -1.4693 63.1 0.114 98.5 7.696 32.2317 23. 0.222E+03 334.89 52.000 -1.4689 63.1 0.130 98.5 7.672 32.2365 24. 0.222E+03 333.84 53.000 -1.4689 63.1 0.121 98.5 7.643 32.2381 23. 0.222E+03 332.58 54.000 -1.4688 63.2 0.116 98.5 7.620 32.2397 23. 0.222E+03 331.58 55.000 -1.4678 63.1 0.105 98.5 7.600 32.2483 24. 0.222E+03 330.71 56.000 -1.4645 63.0 0.098 98.5 7.578 32.2697 23. 0.222E+03 329.75 57.000 -1.4538 63.2 0.094 98.5 7.554 32.3182 23. 0.222E+03 328.69 58.000 -1.4509 63.2 0.108 98.5 7.534 32.3374 24. 0.222E+03 327.81 59.000 -1.4519 63.1 0.106 98.5 7.516 32.3401 23. 0.222E+03 327.03 60.000 -1.4535 63.2 0.094 98.5 7.497 32.3507 23. 0.222E+03 326.20 61.000 -1.4507 63.2 0.092 98.5 7.475 32.3564 24. 0.222E+03 325.24 62.000 -1.4473 63.2 0.082 98.5 7.450 32.3605 23. 0.222E+03 324.15 63.000 -1.4463 63.3 0.079 98.5 7.425 32.3655 23. 0.222E+03 323.06 64.000 -1.4456 63.3 0.084 98.5 7.403 32.3755 24. 0.222E+03 322.10 65.000 -1.4436 63.4 0.084 98.5 7.389 32.3936 23. 0.222E+03 321.49 66.000 -1.4416 63.5 0.090 98.5 7.376 32.4103 24. 0.222E+03 320.92 67.000 -1.4384 63.5 0.073 98.5 7.370 32.4219 23. 0.222E+03 320.66 68.000 -1.4394 63.6 0.070 98.5 7.374 32.4294 23. 0.222E+03 320.83 69.000 -1.4423 63.6 0.075 98.5 7.381 32.4348 24. 0.222E+03 321.13 70.000 -1.4599 63.6 0.071 98.5 7.393 32.4534 23. 0.222E+03 321.65 71.000 -1.4676 63.7 0.070 98.5 7.403 32.4583 24. 0.222E+03 322.08 72.000 -1.4727 63.8 0.069 98.5 7.413 32.4598 23. 0.222E+03 322.52 73.000 -1.4984 63.8 0.068 98.5 7.425 32.4726 23. 0.222E+03 323.04 74.000 -1.5085 63.8 0.062 98.5 7.429 32.4821 24. 0.222E+03 323.21 75.000 -1.5153 63.9 0.067 98.5 7.431 32.4930 23. 0.222E+03 323.29 76.000 -1.5177 63.9 0.069 98.5 7.427 32.5141 24. 0.222E+03 323.11 77.000 -1.5280 63.8 0.070 98.5 7.421 32.5253 23. 0.222E+03 322.85 78.000 -1.5356 63.9 0.068 98.5 7.413 32.5307 23. 0.222E+03 322.50 79.000 -1.5413 63.8 0.076 98.5 7.404 32.5357 24. 0.222E+03 322.11 80.000 -1.5444 63.8 0.082 98.5 7.392 32.5380 23. 0.222E+03 321.58 81.000 -1.5517 63.9 0.072 98.5 7.384 32.5475 24. 0.222E+03 321.23 82.000 -1.5577 63.9 0.080 98.5 7.377 32.5530 23. 0.222E+03 320.93 83.000 -1.5590 63.8 0.075 98.5 7.371 32.5537 23. 0.222E+03 320.67 84.000 -1.5633 63.8 0.080 98.5 7.366 32.5629 23. 0.222E+03 320.45 85.000 -1.5666 63.7 0.068 98.5 7.364 32.5772 24. 0.222E+03 320.35 86.000 -1.5496 63.8 0.070 98.5 7.357 32.5847 23. 0.222E+03 320.05 87.000 -1.5324 63.6 0.064 98.5 7.351 32.5883 23. 0.222E+03 319.79 88.000 -1.5117 63.3 0.066 98.5 7.342 32.5970 23. 0.222E+03 319.39 89.000 -1.5050 63.5 0.065 98.5 7.331 32.6023 24. 0.222E+03 318.91 90.000 -1.4925 63.3 0.057 98.5 7.316 32.6074 23. 0.222E+03 318.26 91.000 -1.4863 63.4 0.056 98.5 7.299 32.6105 23. 0.222E+03 317.52 92.000 -1.4897 63.4 0.059 98.5 7.282 32.6135 23. 0.222E+03 316.78 93.000 -1.4923 63.4 0.059 98.5 7.262 32.6146 23. 0.222E+03 315.91 94.000 -1.5001 63.3 0.055 98.5 7.243 32.6235 24. 0.222E+03 315.08 95.000 -1.5033 63.3 0.054 98.5 7.225 32.6283 23. 0.222E+03 314.30 96.000 -1.5139 63.2 0.060 98.5 7.208 32.6349 23. 0.222E+03 313.55 97.000 -1.5258 63.2 0.057 98.5 7.191 32.6443 23. 0.222E+03 312.81 98.000 -1.5232 63.0 0.053 98.5 7.172 32.6511 24. 0.222E+03 311.98 99.000 -1.5210 63.0 0.048 98.5 7.150 32.6550 23. 0.222E+03 311.03 100.000 -1.5234 63.1 0.047 98.5 7.129 32.6579 23. 0.222E+03 310.11 101.000 -1.5263 63.0 0.048 98.5 7.107 32.6616 23. 0.222E+03 309.15 102.000 -1.5322 63.0 0.051 98.5 7.088 32.6646 23. 0.222E+03 308.33 103.000 -1.5280 62.9 0.045 98.5 7.070 32.6736 23. 0.222E+03 307.54 104.000 -1.5227 62.8 0.042 98.5 7.054 32.6811 23. 0.222E+03 306.84 105.000 -1.5223 62.9 0.041 98.5 7.044 32.6827 23. 0.222E+03 306.41 106.000 -1.5195 62.7 0.041 98.5 7.032 32.6872 23. 0.222E+03 305.89 107.000 -1.5166 62.9 0.042 98.5 7.018 32.6914 24. 0.222E+03 305.28 108.000 -1.5165 62.8 0.048 98.5 7.005 32.6922 23. 0.222E+03 304.71 109.000 -1.5156 62.9 0.050 98.5 6.989 32.6936 23. 0.222E+03 304.01 110.000 -1.5140 62.8 0.045 98.5 6.976 32.6955 23. 0.222E+03 303.45 111.000 -1.5100 62.8 0.046 98.5 6.963 32.6991 23. 0.222E+03 302.88 112.000 -1.4949 62.8 0.041 98.5 6.952 32.7089 23. 0.222E+03 302.40 113.000 -1.4880 62.8 0.041 98.5 6.941 32.7156 24. 0.222E+03 301.92 114.000 -1.4827 62.6 0.040 98.5 6.920 32.7210 23. 0.222E+03 301.01 115.000 -1.4805 62.7 0.040 98.5 6.889 32.7225 23. 0.222E+03 299.66 116.000 -1.4798 62.6 0.043 98.5 6.856 32.7228 23. 0.222E+03 298.22 117.000 -1.4753 62.6 0.048 98.5 6.824 32.7268 23. 0.222E+03 296.83 118.000 -1.4674 62.7 0.048 98.5 6.797 32.7325 23. 0.222E+03 295.65 119.000 -1.4325 62.6 0.042 98.5 6.770 32.7405 23. 0.222E+03 294.48 120.000 -1.3852 62.9 0.044 98.4 6.745 32.7504 23. 0.222E+03 293.39 121.000 -1.3773 63.0 0.042 98.3 6.727 32.7615 23. 0.222E+03 292.60 122.000 -1.3828 63.1 0.039 98.5 6.710 32.7682 23. 0.222E+03 291.86 123.000 -1.3870 63.1 0.042 98.5 6.690 32.7725 24. 0.222E+03 290.99 124.000 -1.3965 63.0 0.050 95.1 6.666 32.7793 23. 0.222E+03 289.94 125.000 -1.4063 62.6 0.045 98.0 6.642 32.7953 23. 0.222E+03 288.90 126.000 -1.3937 62.5 0.047 98.5 6.623 32.8068 23. 0.222E+03 288.07 127.000 -1.3793 62.5 0.046 94.0 6.611 32.8140 23. 0.222E+03 287.54 128.000 -1.3594 62.6 0.044 94.1 6.599 32.8281 23. 0.222E+03 287.02 129.000 -1.3475 62.6 0.037 98.5 6.590 32.8443 23. 0.222E+03 286.62 130.000 -1.3335 62.6 0.041 97.3 6.578 32.8616 23. 0.222E+03 286.10 131.000 -1.3327 62.6 0.037 85.4 6.565 32.8723 23. 0.222E+03 285.53 132.000 -1.3305 62.4 0.037 96.3 6.552 32.8790 24. 0.222E+03 284.96 133.000 -1.3219 62.6 0.036 88.7 6.537 32.8877 23. 0.222E+03 284.31 134.000 -1.3121 62.7 0.038 91.9 6.523 32.8991 23. 0.222E+03 283.70 135.000 -1.3036 62.8 0.039 98.4 6.508 32.9091 23. 0.222E+03 283.04 136.000 -1.2923 62.9 0.037 84.9 6.492 32.9214 23. 0.222E+03 282.35 137.000 -1.2854 62.8 0.037 80.1 6.478 32.9297 23. 0.222E+03 281.73 138.000 -1.2800 62.9 0.037 89.8 6.465 32.9385 23. 0.222E+03 281.17 139.000 -1.2762 63.0 0.039 77.7 6.453 32.9530 24. 0.222E+03 280.64 140.000 -1.2713 63.0 0.039 76.2 6.442 32.9642 23. 0.222E+03 280.16 141.000 -1.2651 62.9 0.038 75.4 6.431 32.9748 23. 0.222E+03 279.68 142.000 -1.2627 62.9 0.038 74.5 6.421 32.9784 23. 0.222E+03 279.25 143.000 -1.2621 62.8 0.040 73.4 6.412 32.9811 23. 0.222E+03 278.85 144.000 -1.2617 62.8 0.044 72.3 6.402 32.9837 24. 0.222E+03 278.42 145.000 -1.2583 62.8 0.044 71.0 6.389 32.9899 23. 0.222E+03 277.85 146.000 -1.2547 62.8 0.042 86.4 6.380 32.9982 23. 0.222E+03 277.46 147.000 -1.2478 62.8 0.052 67.8 6.370 33.0094 24. 0.222E+03 277.02 148.000 -1.2448 62.7 0.044 67.6 6.361 33.0157 23. 0.222E+03 276.63 149.000 -1.2439 62.7 0.040 66.6 6.353 33.0192 23. 0.222E+03 276.28 150.000 -1.2420 62.7 0.037 65.3 6.344 33.0222 23. 0.222E+03 275.89 151.000 -1.2414 62.7 0.038 64.4 6.334 33.0252 24. 0.222E+03 275.45 152.000 -1.2365 62.7 0.039 63.1 6.325 33.0302 23. 0.222E+03 275.06 153.000 -1.2346 62.7 0.035 62.0 6.315 33.0316 23. 0.222E+03 274.62 154.000 -1.2328 62.8 0.037 60.8 6.300 33.0335 23. 0.222E+03 273.97 155.000 -1.2286 62.6 0.036 59.8 6.280 33.0405 24. 0.222E+03 273.10 156.000 -1.2271 62.6 0.038 58.8 6.258 33.0499 23. 0.222E+03 272.14 157.000 -1.2253 62.5 0.035 57.8 6.235 33.0557 23. 0.222E+03 271.14 158.000 -1.2245 62.6 0.037 56.6 6.210 33.0598 24. 0.222E+03 270.05 159.000 -1.2071 62.3 0.034 55.4 6.184 33.0912 23. 0.222E+03 268.91 160.000 -1.2038 62.4 0.034 54.4 6.166 33.0973 23. 0.222E+03 268.13 161.000 -1.1990 62.2 0.033 53.3 6.149 33.1014 23. 0.222E+03 267.39 162.000 -1.1920 62.1 0.038 52.4 6.137 33.1073 24. 0.222E+03 266.87 163.000 -1.1864 62.0 0.048 51.3 6.127 33.1147 23. 0.222E+03 266.43 164.000 -1.1840 62.0 0.034 50.2 6.121 33.1194 23. 0.222E+03 266.17 165.000 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180.000 -1.1314 61.8 0.036 33.4 6.005 33.2400 23. 0.222E+03 261.10 181.000 -1.1248 61.8 0.035 32.4 5.998 33.2521 24. 0.222E+03 260.79 182.000 -1.1232 61.4 0.033 31.4 5.994 33.2556 23. 0.222E+03 260.62 183.000 -1.1213 61.3 0.037 30.4 5.989 33.2595 24. 0.222E+03 260.40 184.000 -1.1190 61.0 0.034 29.3 5.985 33.2637 23. 0.222E+03 260.23 185.000 -1.1144 61.0 0.033 28.3 5.982 33.2721 23. 0.222E+03 260.09 186.000 -1.1131 60.8 0.034 27.2 5.980 33.2752 24. 0.222E+03 260.01 187.000 -1.1129 60.8 0.033 26.2 5.979 33.2753 23. 0.222E+03 259.96 188.000 -1.1130 60.7 0.034 25.1 5.977 33.2757 23. 0.222E+03 259.88 189.000 -1.1129 60.7 0.034 24.1 5.977 33.2759 23. 0.222E+03 259.88 190.000 -1.1127 60.7 0.034 23.1 5.975 33.2758 24. 0.222E+03 259.79 191.000 -1.1126 60.6 0.034 22.1 5.974 33.2758 23. 0.222E+03 259.75 192.000 -1.1125 60.6 0.034 21.0 5.974 33.2763 25. 0.222E+03 259.75 193.000 -1.1124 60.7 0.035 19.9 5.971 33.2766 33. 0.222E+03 259.62 194.000 -1.1118 60.7 0.038 18.7 5.969 33.2777 40. 0.222E+03 259.53 195.000 -1.1113 60.6 0.036 17.6 5.965 33.2787 41. 0.222E+03 259.35 196.000 -1.1104 60.6 0.032 16.6 5.961 33.2805 36. 0.222E+03 259.18 197.000 -1.1091 60.6 0.035 15.6 5.957 33.2824 29. 0.222E+03 259.01 198.000 -1.1081 60.2 0.036 14.7 5.955 33.2841 26. 0.222E+03 258.92 199.000 -1.1064 60.3 0.035 13.7 5.952 33.2873 28. 0.222E+03 258.79 200.000 -1.1051 60.1 0.033 12.6 5.949 33.2893 28. 0.222E+03 258.66 201.000 -1.1047 60.2 0.034 11.6 5.949 33.2900 28. 0.222E+03 258.66 202.000 -1.1043 60.0 0.035 10.6 5.947 33.2905 28. 0.222E+03 258.57 203.000 -1.1038 59.9 0.035 9.6 5.947 33.2917 27. 0.222E+03 258.57 204.000 -1.1034 60.0 0.036 8.6 5.948 33.2923 28. 0.222E+03 258.61 205.000 -1.1035 59.9 0.036 7.6 5.948 33.2917 28. 0.222E+03 258.61 206.000 -1.1028 60.0 0.036 6.2 5.940 33.2930 387. 0.662E+03 258.26 207.000 -1.1028 60.1 0.034 5.9 5.940 33.2924 346. 0.662E+03 258.26