Deep Space Exploration Society

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Deep Space Exploration Society Science Meeting 10-22-2018

Agenda Overview of 2018 Radio Astronomy Guide Overview of this weekends observations

Deep Space Exploration Society 2018 Radio Astronomy Guide Revision 3 Overview

October 19-20, 2018 Observation Trip

Observation Trip 10-19-18 Observers: Gary Agranat, Paul Berge Richard Russel Receiver: SpectraCyber with 1420 Mhz. Cavity Filter on 60-foot dish Pointing System: System 1 Goals: 1) Take Milky Way rotation rate data 2) Observe sources with known Jansky signal levels to determine if a signal calibration level can be estimated

Equipment Setup Dish: 60 ft. Filter: Cavity Filter Receiver: SpectraCyber SpectraCyber Setup: (see photo) Gain: 5 SPEC Integration: 1.0 Second IF BW: 30 kHz SPEC Offset V: 3.70V IF Gain dB: 10 Time/Step: 0.25 Note: We started with Upper KHz at + 500 and Lower KHz at -500 however we started getting sources with high Doppler so we shifted to +-800 Khz

Galactic Rotation Rate Observations Observe the Galactic Plane at Galactic Latitude 0 and Galactic Longitudes 0, 10, 20, 30, 40, 50, 60, 70, 80, and 90 degrees. This maps the Milky Way’s quadrant 1 Determine the highest Doppler rate of each measurement Calculate distance to the observed source using the tangent method Calculate the velocity of the observed source at the calculated distance The final result is a plot of the Milky Way’s rotation rate at different distances from the galactic center

Galactic Lat 0 Long 0 RA 17h45m37s DEC -28d56m10s

Galactic Lat 0 Long 10 RA 18h07m46s DEC -20d17m24s

Galactic Lat 0 Long 20 RA 18h27m32s -11d29m19s

Galactic Lat 0 Long 30 RA 18h46m05s DEC -02d36m33s

Galactic Lat 0 Long 40 RA 19h04m23s DEC 06d17m14s

Galactic Lat 0 Long 50 RA 19h23m19s DEC 15d08m33s

Galactic Lat 0 Long 60 RA 19h43m54s DEC 23d53m25s

Galactic Lat 0 Long 70 RA 20h07m28s DEC 32d26m33s

Galactic Lat 0 Long 80 RA 20h35m53s DEC 40d39m49s

Galactic Lat 0 Long 90 RA 21h12m01s DEC 48d19m46s

Galactic Lat 0 Long 100 RA 22h00m01s DEC 55d02m59s

Galactic Lat 0 Long 110 RA 23h04m32s DEC 60d09m34s

Calculating Velocities Frequency Used

Galactic Rotation Data GLat 0 Glong 30 GLat 0 Glong 40 GLat 0 Glong 0 GLat 0 Glong 10 GLat 0 Glong 20 GLat 0 Glong 50 GLat 0 Glong 60 GLat 0 Glong 70 GLat 0 Glong 80 GLat 0 Glong 90

Galactic Rotation Rate Results

Singular Source Observations Numerous sources were observed that were near the Milky Way

Source: 3C348 RA 16h48m DEC 05d04m 46.73 JY

Source: Unknown RA 18h30m DEC -10d10m 69 JY

Source: W44 RA 18h53m30s DEC 1d18m 230 JY

Source: HB21 RA 20h43m DEC 50d25m 220 JY

Source: W80 RA 20h55m DEC 44d03m 550 JY

Source: Part of HB22 RA 21h34m DEC 57d26m (106 JY @1420Mhz)

Source: DA 560 RA 21h44m DEC 57d33m 64 JY

Source: CTB 107 RA 22h22m DEC 63d12m 70 JY

Source: Cassiopeia A RA 23h21m DEC 58d32m 2720 JY

Summary The Milky Way Rotation Rate looks promising and is close to reported curves from numerous sources. Plan is to do at least two more rounds of observations in order to verify results Calibration data was inconsistent Possible issue is the use of 1950 vs 2000 RA/DEC position data Plan is to update all 1950 positions to the 2000 positions and to retake the data It is possible that the 60 ft. dish elevation pointing may not be calibrated due to the RF pointing changing based on the elevation angle of the dish – plan is to try to get some elevation pointing calibration data