Goldstone Radar Observations Planning: 2009 FD and 2015 TB145
This is a planning page for asteroids 2009 FD and 2015 TB145 2009 FD 2009 FD will approach within 0.0419 au (16.3 lunar distances) on 2015 October 29. This object should yield SNRs at Goldstone strong enough for ranging and perhaps coarse-resolution imaging. SNRs at Arecibo should be strong enough for imaging at 7.5 m resolution. 2009 FD first noticed by the La Sagra Sky Survey on in March 2009, but precovery observations were also found in data from Spacewatch data from February 24, 2009. The Minor Planet Center credits both search programs with the discovery. Observations by NASA's Wide Field Infrared Survey Explorer (WISE) spacecraft yielded a diameter of 0.47 km and very low optical albedo of 0.01. Arecibo radar observations in 2014 suggest the diameter is closer to 0.3 km and that the optical albedo is ~0.03, which is still unusually dark. The SNRs of the 2014 Arecibo observations were low and did not provide delay-Doppler images. Carbognani et al. (2011) reported a rotation period of 5.87 h and a lightcurve amplitude of 0.24 mag that suggests a shape with a low pole-on elongation. Koehn et al. (2014) obtained lightcurves that placed a lower bound on the rotation period of 6.22 h but they were unable to obtain a unique solution. The SNRs of the observations in 2015 will be orders of magnitude stronger than in 2014 and should allow us to resolve the different estimates of the diameter and rotation period. If the observations at Goldstone and Arecibo go well, it should be possible to estimate the asteroid's 3D shape. To the best of our knowledge the spectral class is unknown, but it's clear that this is object is optically-dark. 2009 FD will remain very faint and too close to the Sun for optical observations until late October. Afterward it will be at favorable solar elongations and at a maximum visual magnitude of about 18 when photometry with meter-class (and larger) telescopes could be possible. Plane-of-sky pointing, Doppler, and time delay uncertainties for 2009 FD are small and no additional optical astrometry is necessary prior to the 2015 radar observations. 2009 FD is not classified as a "Potentially Hazardous Asteroid" because its absolute magnitude is slightly fainter than the cutoff of 22. WISE and radar observations discussed above show that the diameter is probably at least 300 meters, so it's large enough to be "potentially hazardous" even though it isn't classified as such. 2015 TB145 2015 TB145 was discovered on 2015 Oct 10 by the Pan-STARRS I survey. The object will approach the Earth within 0.00326 au (1.3 Lunar distances or about 490 000 km) on 2015 Oct 31 at about 17:00 UT (10 AM PDT). The asteroid is in an extremely eccentric (~0.86) and high inclination (~40 deg) orbit. It has a Tisserand parameter of 2.937 hinting that it may be cometary in nature. Its absolute magnitude of 19.8 indicates that its diameter is probably within a factor of two of 320 meters. At closest approach the SNRs/run at DSS-14 are expected to be over 20000, so this should be one of the best radar targets of the year. We hope to obtain images with a range resolution as high as 2 m/pixel using DSS-13 to transmit and Green Bank and Arecibo to receive. The flyby presents a truly outstanding scientific opportunity to study the physical properties of this object. The encounter velocity is 35 km/s, which is unusually high. This is the closest approach by a known object this large until 1999 AN10 approaches within 1 lunar distance in August 2027. The last approach closer than this by an object with H < 20 was by 2004 XP14 in July 2006 at 1.1 lunar distances. 2015 TB145 could reach 10th magnitude before sunrise on October 31 for observers in North America, but it will be close to the waning gibbous Moon and probably challenging to see with small telescopes. The asteroid will be in Ursa Major at the time of closest approach. After closest approch 2015 TB145 will be a daytime object and too close to the Sun to observe with optical telescopes. Radar observations are planned at DSS-14, DSS-13, Arecibo, Green Bank, and elements of the VLBA. Monostatic observations are also scheduled at the 46 m UHF radar at Haystack (led by Juha Vierenen). The 18 m Westford antenna at Haystack may also be used to receive Goldstone transmissions. 13 m antennas at Badary and Zelenchukskaya (Russia) may also be used to receive C-band transmissions from DSS-13 on October 31 in collaboration with Yuri Bondarenko et al. at the Quasar VLBI network.
Orbital and Physical Characteristics Provisional Designation 2009 FD 2015 TB145 Asteroid number 410777 not numbered Discoverer Spacewatch and La Sagra Pan-STARRS I Discovery date 2009 February 24 2015 October 10 orbit type Apollo Apollo Close approach date 2015 Oct 29 2015 October 31 Close approach distance 0.0418 au 0.00325 au Close approach distance 16.3 lunar distances 1.3 lunar distances semimajor axis 1.163 au 2.110 au eccentricity 0.493 0.860 inclination 3.1 deg 39.7 deg perihelion distance 0.590 au 0.295 au Inside the orbital distance of Mercury aphelion distance 1.736 au 3.9 au Tisserand parameter 5.295 --> Asteroidal 2.937 absolute magnitude (H) 22.1 19.8 diameter 0.47 km Mainzer et al. 2014 unknown ~0.3 km Arecibo radar observations in 2014 optical albedo 0.01 Mainzer et al. 2014 unknown 0.03 Arecibo radar observations in 2014 rotation period 5.87 +- 0.02 h Carbognani et al. 2011 unknown >6.22 Koehn et al. 2014 lightcurve amplitude 0.24 +- 0.04 mag Carbognani et al. 2011, Koehn et al. 2014 unknown pole direction unknown unknown spectral class unknown, but probably dark unknown Last update: 2015 October 30
2009 FD http://www.minorplanetcenter.net/mpec/K09/K09F09.html 2015 TB145 http://www.minorplanetcenter.net/mpec/K15/K15T86.html
SNR Calculations
2009 FD GOLDSTONE SNRs Assumptions: D = 0.3 km, P = 5.87 h, OC radar albedo = 0.06 w DOY start date window RA, dec dist runs SNR/day SNR/run 43 296-297 2015 Oct 23-24 17:44-01:46 241, -7 0.068 203 19 1 43 297-298 2015 Oct 24-25 17:55-02:11 246, -5 0.061 234 30 2 43 298-299 2015 Oct 25-26 18:10-02:45 253, -3 0.054 271 50 3 * Scheduled 44 299-300 2015 Oct 26-27 18:30-03:28 262, 0 0.048 313 79 5 44 300-301 2015 Oct 27-28 18:57-04:20 273, +4 0.044 356 120 7 44 301-302 2015 Oct 28-29 19:30-05:19 286, +8 0.042 389 140 8 44 302-303 2015 Oct 29-30 20:08-06:20 299, +12 0.042 401 140 8 * Scheduled 44 303-304 2015 Oct 30-31 20:47-07:14 312, +15 0.045 390 110 6 * Scheduled 44 304-305 2015 Oct 31-01 21:24-07:58 323, +17 0.049 362 80 5 * Scheduled 44 305-306 2015 Nov 01-02 21:55-08:31 332, +18 0.055 327 51 3 45 306-307 2015 Nov 02-03 22:20-08:57 340, +19 0.062 293 32 2 45 307-308 2015 Nov 03-04 22:39-09:15 345, +19 0.070 263 20 1 Note: We adopted D = 0.3 km and OC radar albedo = 0.06. Both are based on the April 2014 detection at Arecibo and the 5.9 h rotation period reported by Carbognani et al. (2011). Goldstone SNRs assume Ptx = 450 kW and T = 17 K. ARECIBO SNRs Rotation w DOY start date window RA, dec dist runs SNR/day SNR/run Phases (P = 5.87 h) 44 299 2015 Oct 26 19:02-20:03 261, 0 0.049 35 430 78 119-182 * Scheduled 44 300 2015 Oct 27 19:15-21:05 271, +4 0.045 70 1100 140 164-277 * Scheduled 44 301 2015 Oct 28 19:45-22:06 284, +8 0.042 94 1600 180 227- 11 * Scheduled 44 302 2015 Oct 29 20:25-23:04 297, +12 0.042 106 1700 180 300-102 * Scheduled 44 303 2015 Oct 30 21:09-23:56 310, +15 0.044 106 1500 150 17-187 * Scheduled 44 304-305 2015 Oct 31-01 21:50-00:39 322, +17 0.049 100 1000 110 90-263 44 305-306 2015 Nov 01-02 22:23-01:13 331, +18 0.054 84 650 74 156-330 45 306-307 2015 Nov 02-03 22:50-01:39 339, +19 0.061 76 410 49 215- 28 45 307-308 2015 Nov 03-04 23:10-01:59 345, +19 0.069 68 260 33 268- 81 * Scheduled 45 308-309 2015 Nov 04-05 23:26-02:14 350, +19 0.077 62 170 22 316-128 * Scheduled 45 309-310 2015 Nov 05-06 23:38-02:25 353, +19 0.085 54 110 16 45 310-311 2015 Nov 06-07 23:47-02:34 357, +19 0.094 50 76 11 45 311-312 2015 Nov 07-08 23:53-02:40 359, +19 0.103 46 53 8 46 312-313 2015 Nov 08-09 23:58-02:45 1, +19 0.112 42 38 6 46 313 2015 Nov 10 00:02-02:49 3, +19 0.122 38 27 5 46 314 2015 Nov 11 00:05-02:52 5, +19 0.131 36 20 4 46 315 2015 Nov 12 00:07-02:53 7, +19 0.141 32 15 3 Assumptions: Ptx = 900 kW, Tsys = 25 K ---------------------------------------------------------------------------------------------------- 2015 TB145 Goldstone SNRS Assumptions: 2015 TB145: D = 0.4000 km, P = 2.2000 hr, OC albedo = 0.100 <--Monostatic---> DSS14/DSS13 DSS13/GBT w DOY start date window RA, dec dist runs SNR/day SNR/run SNR/RTT SNR/RTT 44 300 2015 Oct 27 05:32-14:06 66, -1 0.086 197 10 1 44 301 2015 Oct 28 05:28-14:05 66, -1 0.066 259 29 2 44 302 2015 Oct 29 05:24-14:08 67, 0 0.046 377 130 7 44 303 2015 Oct 30 05:20-14:24 69, +3 0.026 695 1300 54 * 9 4 Scheduled at DSS-14 and Green Bank 44 304 2015 Oct 31 05:18-15:28 90, +29 0.005 4458 920000 15000 * 2500 990 Scheduled at DSS-14 and DSS-13 44 304 2015 Oct 31-01 15:28-01:50 211, +39 0.004 5474 1530000 23000 * 3800 1500 Scheduled at DSS-13 and Green Bank 44 305 2015 Nov 1- 2 16:12-01:51 240, +9 0.025 759 1500 61 10 4 45 306 2015 Nov 2- 3 16:29-01:47 242, +6 0.045 407 140 8 45 307 2015 Nov 3- 4 16:32-01:43 243, +5 0.065 278 32 2 45 308 2015 Nov 4- 5 16:32-01:39 243, +5 0.085 211 11 1 On Oct. 31-Nov. 1, 2015 TB145 will transit twice and reach elevations above 80 degrees twice between 10:40-12:15 and 18:30-20:25 UT. The SNR estimates above split the Oct. 31/Nov. 1 view period into two segments. The distance changes from 0.0095 - 0.0033 au so the SNRs vary by factor of about 145 between the time the asteroid rises at 05:20 and closest approach. Arecibo SNRS Rise/set times current as of solution 9 DOY start date window RA, dec dist runs SNR/day SNR/run 300 2015 Oct 27 06:17-06:40 66, -1 0.089 7 33 12 301 2015 Oct 28 06:05-06:47 66, -1 0.069 18 130 33 302 2015 Oct 29 05:54-06:56 67, 0 0.048 39 730 120 303 2015 Oct 30 05:40-07:15 68, +2 0.028 102 9000 1000 * Scheduled 304 2015 Oct 31 05:34-08:27 78, +16 0.008 615 1940000 82000 * Scheduled 305 2015 Nov 1 16:27-18:56 240, +10 0.022 208 35000 2600 * Scheduled 306 2015 Nov 2 16:43-18:53 242, +6 0.042 94 2400 270 307 2015 Nov 3 16:47-18:48 243, +5 0.062 58 480 69 308 2015 Nov 4 16:48-18:43 243, +5 0.082 42 150 26 309 2015 Nov 5 16:46-18:39 243, +4 0.103 32 62 12 310 2015 Nov 6 16:44-18:34 244, +4 0.123 26 29 6 311 2015 Nov 7 16:42-18:29 244, +4 0.143 22 16 4 312 2015 Nov 8 16:39-18:25 244, +4 0.164 19 9 2 2015 TB145 ephemerides at 30 minute intervals during Goldstone radar tracks JPL/Horizons solution 33 Date__(UT)__HR:MN R.A._(a-appar)_DEC. Azi_(a-appr)_Elev delta 2015-Oct-30 05:00 m 68.00016 2.12800 99.0865 16.1026 0.03042514113577 2015-Oct-30 05:30 m 68.04686 2.19822 103.7819 22.1130 0.03000300195462 2015-Oct-30 06:00 m 68.09385 2.27043 108.8562 28.0018 0.02958119201018 2015-Oct-30 06:30 m 68.14121 2.34470 114.4705 33.7096 0.02915978102834 2015-Oct-30 07:00 m 68.18904 2.42113 120.8248 39.1571 0.02873883333352 2015-Oct-30 07:30 m 68.23748 2.49978 128.1636 44.2357 0.02831840681568 2015-Oct-30 08:00 m 68.28669 2.58076 136.7654 48.7957 0.02789855201192 2015-Oct-30 08:30 m 68.33682 2.66416 146.8901 52.6362 0.02747931131907 2015-Oct-30 09:00 m 68.38809 2.75010 158.6482 55.5085 0.02706071835148 2015-Oct-30 09:30 m 68.44069 2.83867 171.7959 57.1533 0.02664279745598 Solution 33 Date__(UT)__HR:MN R.A._(a-appar)_DEC. Azi_(a-appr)_Elev delta 2015-Oct-31 05:00 m 74.92633 11.67577 87.4085 16.7542 0.01058714786625 2015-Oct-31 05:30 m 75.35840 12.26678 90.9677 22.8560 0.01018369195784 2015-Oct-31 06:00 m 75.82481 12.90542 94.6033 28.9490 0.00978219543165 2015-Oct-31 06:30 m 76.33036 13.59726 98.3983 35.0119 0.00938293990430 2015-Oct-31 07:00 m 76.88075 14.34874 102.4578 41.0211 0.00898623904934 2015-Oct-31 07:30 m 77.48287 15.16726 106.9243 46.9485 0.00859244556319 2015-Oct-31 08:00 m 78.14498 16.06140 112.0055 52.7575 0.00820196023826 2015-Oct-31 08:30 m 78.87715 17.04112 118.0234 58.3966 0.00781524372411 2015-Oct-31 09:00 m 79.69169 18.11798 125.5080 63.7864 0.00743283172511 Solution 33 2015-Oct-31 12:30 m 89.63143 29.79065 257.6577 71.8966 0.00494943542881 2015-Oct-31 13:00 Am 92.18085 32.31344 268.9306 68.7052 0.00463960283436 2015-Oct-31 13:30 Nm 95.26424 35.11523 278.0466 65.6953 0.00434815010944 2015-Oct-31 14:00 Cm 99.04204 38.19602 285.9708 63.0854 0.00407888574125 2015-Oct-31 14:30 *m 103.72858 41.52328 293.2510 61.0382 0.00383636432158 2015-Oct-31 15:00 *m 109.60058 45.00805 300.1870 59.6839 0.00362585473686 2015-Oct-31 15:30 *m 116.98450 48.47409 306.9111 59.1196 0.00345313979065 2015-Oct-31 16:00 *m 126.18268 51.63129 313.4167 59.3965 0.00332406896707 2015-Oct-31 16:30 *m 137.28139 54.08406 319.5598 60.5033 0.00324384222295 2015-Oct-31 17:00 *m 149.86043 55.42234 325.0461 62.3563 0.00321613731946 2015-Oct-31 17:30 *m 162.87719 55.40054 329.4076 64.8002 0.00324235447146 2015-Oct-31 18:00 *m 175.06504 54.08187 331.9617 67.6172 0.00332130012868 2015-Oct-31 18:30 * 185.56763 51.79521 331.7487 70.5240 0.00344946318554
Track Assignments
DOY BOA BOT EOT EOA 298 1900 2030 2255 2325 DSS-14 GSSR AST 2009 FD 303 0140 0310 0940 1010 DSS-14 GSSR 2009 FD/2015 TB145 304 0240 0410 0710 0740 DSS-14 GSSR 2009 FD/2015 15 TB145 304 0350 0520 0830 0900 DSS-13 GSSR AST 2015 TB145 304 1100 1230 1830 1900 DSS-13 GSSR AST 2015 TB145 305 0325 0455 0755 0825 DSS-14 GSSR AST 2009 FD Goldstone tracks: 2009 FD UT UT PDT Duration Round-trip SNR/ Rotation Asteroid DOY Date TX Window TX Window hh:mm time (sec) RTT Phases (P = 5.87 h) 2009 FD 298 Oct 25 1930-2255 1230-1555 Oct 25 3:25 54 3 116-325 2009 FD 303 Oct 30 0210-0620 1915-2320 Oct 29 4:10 42 8 297-188 2015 TB145 303 Oct 30 0520-0940 2220-0240 Oct 29-30 4:20 25 54 DSS-14 monostatic to update the orbit; DSS-14/Arecibo during part of 0541-0716 2015 TB145 303 Oct 30 0715-0940 0015-0240 Oct 30 2:35 25 Scheduled at Green Bank: X-band with DSS-14 2009 FD 304 Oct 31 0310-0710 2010-0010 Oct 30-31 4:00 45 6 26-271 2015 TB145 304 Oct 31 0520-0710 2220-0010 Oct 30-31 2:50 5 23000 DSS-14 and DSS-13; overlaps Arecibo 0534-0710 at DSS-14. During the first track on Oct 31, we will transmit X-band from DSS-14 and receive at both Arecibo and DSS-13. After the track at DSS-14 ends, we will receive Arecibo S-band transmissions at DSS-13 at 20 MHz. It will take some time to warm up the transmitter at Arecibo. 2015 TB145 304 Oct 31 0710-0830 0010-0130 Oct 31 1:20 5 Arecibo/DSS-13 S-Band bistatic until 0837 UT 2015 TB145 304 Oct 31 1230-1830 0530-1130 Oct 31 6:00 4 ~1000 C-band transmit at DSS-13, receive at Green Bank 1815-1830 1115-1130 Oct 31 0:15 C-band transmit at DSS-13, receive at RT-13 at Badary and Zelenchukskaya 2009 FD 305 Nov 1 0355-0755 2055-0055 Oct 31-Nov 1 4:00 49 5 103-349 The start times indicate when we have transmit authorization for 2009 FD, which is about 30 minutes after we get the telescope. The scheduled times at Goldstone will provide thorough rotational phase coverage for 2009 FD. Goldstone 2009 FD tracks do not overlap times when 2009 FD is in the beam at Arecibo. Arecibo tracks: UT UT PDT Round-trip Asteroid Date TX Window TX Window time (sec) SNR/RTT 2009 FD Oct 26 1902-2003 1202-1303 Oct 26 49 78 2009 FD Oct 27 1915-2105 1215-1405 Oct 27 45 140 2009 FD Oct 28 1945-2206 1245-1506 Oct 28 42 180 2009 FD Oct 29 2025-2304 1325-1604 Oct 29 42 180 2015 TB145 Oct 30 0540-0600 2240-2300 Oct 29 29 Arecibo/VLBA Radar Speckle Tracking 2015 TB145 Oct 30 0600-0715 2300-0015 Oct 29-30 29 1000 Overlaps Goldstone from 0540-0715 2009 FD Oct 30 2109-2356 1409-1656 Oct 30 44 150 2015 TB145 Oct 31 0534-0827 2234-0127 Oct 30-31 9 82000 Overlaps Goldstone DSS-14 from 0534-0710 2015 TB145 Oct 31 0710-0827 0010-0127 Oct 31 9 Arecibo transmit/DSS-13 receive UT UT PST (Standard Time starts on Nov. 1) 2015 TB145 Nov 1 1628-1825 0928-1125 Nov 1 22 2600 2015 TB145 Nov 1 1825-1845 1125-1145 Nov 1 22 Arecibo/VLBA Radar Speckle Tracking 2009 FD Nov 3- 4 2310-0159 1510-1759 Nov 3 69 33 2009 FD Nov 4- 5 2326-0214 1526-1814 Nov 4 77 22
Uncertainties
2009 FD JPL/Horizons solution 61, # obs: 284 (2009-2014): Date__(UT)__HR:MN R.A._(a-appar)_DEC. delta POS_3sigma DOP_S_3sig DOP_X_3sig RT_delay_3sig 2015-Oct-20 00:00 *m 227.73925 -10.71343 0.10201035261266 1.014 0.26 0.96 0.000315 2015-Oct-21 00:00 *m 230.25686 -10.00756 0.09294194352959 1.109 0.34 1.23 0.000323 2015-Oct-22 00:00 *m 233.26787 -9.12804 0.08414432953423 1.215 0.43 1.58 0.000333 2015-Oct-23 00:00 *m 236.91784 -8.01704 0.07568455737072 1.333 0.55 2.00 0.000346 2015-Oct-24 00:00 *m 241.40135 -6.59509 0.06766263689590 1.460 0.69 2.50 0.000363 2015-Oct-25 00:00 *m 246.97202 -4.75748 0.06022778815145 1.590 0.84 3.05 0.000385 2015-Oct-26 00:00 * 253.93816 -2.38119 0.05360012455562 1.711 0.97 3.54 0.000411 2015-Oct-27 00:00 * 262.61293 0.63644 0.04809174432724 1.803 1.04 3.78 0.000438 2015-Oct-28 00:00 * 273.16595 4.27670 0.04410426616703 1.859 0.99 3.60 0.000462 2015-Oct-29 00:00 * 285.35860 8.25471 0.04205703844972 1.899 0.91 3.31 0.000473 2015-Oct-30 00:00 * 298.34223 12.00606 0.04222294284623 1.951 1.01 3.68 0.000466 2015-Oct-31 00:00 * 310.88281 14.98406 0.04457225380093 1.986 1.18 4.28 0.000441 2015-Nov-01 00:00 * 321.97048 16.99765 0.04879014526729 1.962 1.20 4.36 0.000408 2015-Nov-02 00:00 * 331.19645 18.19429 0.05444725433121 1.874 1.09 3.95 0.000374 2015-Nov-03 00:00 * 338.64141 18.83129 0.06115134562999 1.751 0.92 3.34 0.000343 2015-Nov-04 00:00 * 344.59759 19.12635 0.06860402753664 1.616 0.75 2.72 0.000318 2015-Nov-05 00:00 * 349.38313 19.22470 0.07659635865511 1.485 0.60 2.18 0.000298 2015-Nov-06 00:00 * 353.26930 19.21397 0.08498644895296 1.364 0.48 1.73 0.000282 2015-Nov-07 00:00 * 356.46714 19.14493 0.09367836098134 1.256 0.38 1.37 0.000269 2015-Nov-08 00:00 * 359.13525 19.04657 0.10260671355061 1.160 0.30 1.08 0.000259 2015 TB145 JPL/Horizons solution 33, # obs: 724 (20 days), radar( 3 delay, 2 Dop.): Date__(UT)__HR:MN R.A._(a-appar)_DEC. delta POS_3sigma DOP_S_3sig DOP_X_3sig RT_delay_3sig 2015-Oct-27 00:00 * 65.50511 -1.25025 0.09514987298892 0.142 0.42 1.53 0.000049 2015-Oct-28 00:00 * 65.83725 -0.83150 0.07494771092376 0.165 0.42 1.52 0.000034 2015-Oct-29 00:00 * 66.38693 -0.09235 0.05477572628466 0.227 0.41 1.51 0.000019 2015-Oct-30 00:00 * 67.54381 1.52012 0.03464785461573 0.398 0.41 1.47 0.000004 2015-Oct-31 00:00 * 71.84921 7.55870 0.01468290421077 1.097 0.55 2.02 0.000011 2015-Nov-01 00:00 * 226.35282 26.03215 0.00669573712673 2.561 1.94 7.07 0.000048 2015-Nov-02 00:00 * 240.35238 8.61061 0.02623153751989 0.829 0.42 1.52 0.000048 2015-Nov-03 00:00 * 242.15466 6.08222 0.04632668978749 0.547 0.42 1.51 0.000062 JPL/Horizons solution 18, # obs: 598 (19 days): Date__(UT)__HR:MN R.A._(a-appar)_DEC. delta POS_3sigma DOP_S_3sig DOP_X_3sig RT_delay_3sig 2015-Oct-27 00:00 * 65.50510 -1.25026 0.09513852225525 0.237 212.62 772.77 0.038790 2015-Oct-28 00:00 * 65.83724 -0.83152 0.07493840127875 0.276 212.29 771.54 0.031191 2015-Oct-29 00:00 * 66.38692 -0.09235 0.05476845391312 0.463 211.90 770.15 0.023678 2015-Oct-30 00:00 * 67.54384 1.52020 0.03464261491145 1.654 211.26 767.80 0.016357 2015-Oct-31 00:00 * 71.84974 7.55956 0.01467969753864 14.637 209.44 761.19 0.009609 2015-Nov-01 00:00 * 226.35892 26.02590 0.00669651369104 105.374 191.17 694.81 0.005116 2015-Nov-02 00:00 * 240.35292 8.60997 0.02623059877744 9.791 209.45 761.23 0.009955 2015-Nov-03 00:00 * 242.15491 6.08193 0.04632374125371 4.305 211.45 768.50 0.016767 Solution 18 Details during the first track on October 30: Date__(UT)__HR:MN R.A._(a-appar)_DEC. delta SMAA_3sig SMIA_3sig Theta Area_3sig POS_3sigma DOP_S_3sig DOP_X_3sig RT_delay_3sig 2015-Oct-30 05:00 m 68.00021 2.12811 0.03042032424226 2.265 0.724 53.471 10.31 2.378 211.02 766.95 0.014880 2015-Oct-30 06:00 m 68.09391 2.27056 0.02957645965076 2.448 0.757 53.707 11.64 2.562 210.97 766.75 0.014588 2015-Oct-30 07:00 m 68.18911 2.42126 0.02873418549949 2.647 0.794 54.002 13.20 2.763 210.91 766.53 0.014297 2015-Oct-30 08:00 m 68.28676 2.58091 0.02789398869562 2.864 0.835 54.335 15.03 2.983 210.85 766.31 0.014008 2015-Oct-30 09:00 m 68.38816 2.75026 0.02705623954679 3.102 0.881 54.685 17.18 3.225 210.78 766.07 0.013719 2015-Oct-30 10:00 m 68.49494 2.93018 0.02622116909600 3.366 0.932 55.029 19.70 3.492 210.71 765.81 0.013432 JPL/Horizons solution 15, # obs: 521 (18 days): Date__(UT)__HR:MN R.A._(a-appar)_DEC. delta POS_3sigma DOP_S_3sig DOP_X_3sig RT_delay_3sig 2015-Oct-27 00:00 * 65.50511 -1.25027 0.09514870128344 0.331 277.09 1007.07 0.058842 2015-Oct-28 00:00 * 65.83724 -0.83154 0.07494687615606 0.677 276.62 1005.37 0.049329 2015-Oct-29 00:00 * 66.38691 -0.09242 0.05477522743017 1.847 276.15 1003.65 0.040096 2015-Oct-30 00:00 * 67.54377 1.51998 0.03464768913188 6.588 275.72 1002.10 0.031367 2015-Oct-31 00:00 * 71.84897 7.55818 0.01468305637084 50.065 283.69 1031.08 0.023486 2015-Nov-01 00:00 * 226.35171 26.03298 0.00669522750502 316.383 369.13 1341.60 0.015493 2015-Nov-02 00:00 * 240.35236 8.61053 0.02623067332232 26.493 270.18 981.97 0.017753 2015-Nov-03 00:00 * 242.15467 6.08215 0.04632549031172 10.732 274.67 998.29 0.022435 Details during the first track on October 30: Date__(UT)__HR:MN R.A._(a-appar)_DEC. delta SMAA_3sig SMIA_3sig Theta Area_3sig POS_3sigma DOP_S_3sig DOP_X_3sig RT_delay_3sig 2015-Oct-30 05:00 m 68.00010 2.12783 0.03042504426077 9.070 1.456 52.972 83.01 9.186 275.69 1001.99 0.029647 2015-Oct-30 06:00 m 68.09379 2.27025 0.02958110879559 9.717 1.518 53.139 92.68 9.835 275.69 1002.00 0.029308 2015-Oct-30 07:00 m 68.18898 2.42094 0.02873876375442 10.418 1.587 53.354 103.89 10.538 275.70 1002.02 0.028972 2015-Oct-30 08:00 m 68.28662 2.58056 0.02789849604064 11.181 1.664 53.605 116.87 11.304 275.72 1002.08 0.028637 2015-Oct-30 09:00 m 68.38801 2.74989 0.02706067595708 12.015 1.747 53.874 131.91 12.141 275.74 1002.17 0.028304 2015-Oct-30 10:00 m 68.49478 2.92978 0.02622553454061 12.932 1.837 54.146 149.29 13.062 275.78 1002.32 0.027973 JPL/Horizons solution 9, # obs: 145 (12 days): Date__(UT)__HR:MN R.A._(a-appar)_DEC. delta POS_3sigma DOP_S_3sig DOP_X_3sig RT_delay_3sig 2015-Oct-27 00:00 * 65.50521 -1.25016 0.09511326953270 10.836 1109.37 4031.97 0.499684 2015-Oct-28 00:00 * 65.83747 -0.83129 0.07491368971039 21.618 1106.99 4023.31 0.463025 2015-Oct-29 00:00 * 66.38747 -0.09176 0.05474428253595 48.917 1107.34 4024.56 0.427055 2015-Oct-30 00:00 * 67.54550 1.52211 0.03461900528580 145.037 1125.28 4089.79 0.391613 2015-Oct-31 00:00 * 71.86050 7.57318 0.01465698124619 945.291 1567.46 5696.84 0.352373 2015-Nov-01 00:00 * 226.42777 25.94844 0.00671595010046 5202.798 5997.13 21796.30 0.279451 2015-Nov-02 00:00 * 240.35687 8.60337 0.02625244881418 392.017 986.65 3585.92 0.292118 2015-Nov-03 00:00 * 242.15620 6.07934 0.04634525134557 144.770 1068.11 3881.99 0.266739 JPL/Horizons solution 6, # obs: 81 (9 days): Date__(UT)__HR:MN R.A._(a-appar)_DEC. delta POS_3sigma DOP_S_3sig DOP_X_3sig RT_delay_3sig 2015-Oct-27 00:00 * 65.50269 -1.25191 0.09542178665292 50.548 2603.28 9461.51 1.670115 2015-Oct-28 00:00 * 65.83303 -0.83477 0.07521111987923 94.820 2597.09 9438.99 1.583269 2015-Oct-29 00:00 * 66.37860 -0.09969 0.05503062495245 203.499 2603.20 9461.21 1.497393 2015-Oct-30 00:00 * 67.52246 1.49825 0.03489397553147 575.002 2685.89 9761.75 1.411305 2015-Oct-31 00:00 * 71.72998 7.41608 0.01491666680878 3545.252 4456.08 16195.43 1.307926 2015-Nov-01 00:00 * 225.64874 26.83849 0.00649764618213 20949.113 26258.16 95434.07 1.065995 2015-Nov-02 00:00 * 240.31884 8.67461 0.02601161272875 1467.565 2122.21 7713.06 1.160413 2015-Nov-03 00:00 * 242.14569 6.10633 0.04611331209599 526.994 2443.12 8879.42 1.093653 JPL/Horizons solution 2, # obs: 46 (4 days): Date__(UT)__HR:MN R.A._(a-appar)_DEC. delta POS_3sigma DOP_S_3sig DOP_X_3sig RT_delay_3sig 2015-Oct-27 00:00 * 65.52020 -1.24816 0.09482377478374 220.436 6004.59 21823.39 4.039663 2015-Oct-28 00:00 * 65.86054 -0.82618 0.07456300886056 375.473 5992.69 21780.15 3.955530 2015-Oct-29 00:00 * 66.42713 -0.07792 0.05433261199936 740.916 5985.07 21752.44 3.881497 2015-Oct-30 00:00 * 67.63198 1.56960 0.03414737601181 1965.343 6022.80 21889.58 3.813396 2015-Oct-31 00:00 * 72.25865 7.92601 0.01413644917043 12099.847 10187.72 37026.79 3.689396 2015-Nov-01 00:00 * 227.77850 24.07663 0.00724974242576 49288.151 58849.67 213886.40 3.326103 2015-Nov-02 00:00 * 240.38700 8.43674 0.02690913889052 3925.154 5849.67 21260.37 3.693160 2015-Nov-03 00:00 * 242.14738 6.01347 0.04706709516125 1447.743 5917.83 21508.08 3.708138 JPL/Horizons solution 1: Date__(UT)__HR:MN R.A._(a-appar)_DEC. delta POS_3sigma DOP_S_3sig DOP_X_3sig RT_delay_3sig 2015-Oct-27 00:00 * 65.52165 -1.24553 0.09438680394677 407.304 8306.31 30188.89 5.721860 2015-Oct-28 00:00 * 65.86362 -0.82132 0.07415849782903 677.552 8291.48 30135.02 5.767547 2015-Oct-29 00:00 * 66.43434 -0.06748 0.05396053051335 1303.612 8239.35 29945.55 5.827567 2015-Oct-30 00:00 * 67.65381 1.59978 0.03380801034344 3378.566 7992.99 29050.14 5.893187 2015-Oct-31 00:00 * 72.40943 8.12776 0.01383458171912 20720.408 12621.49 45872.24 5.855158 2015-Nov-01 00:00 * 228.48402 23.28564 0.00749256016009 74273.422 89220.84 324269.02 5.508369 2015-Nov-02 00:00 * 240.43567 8.36607 0.02714993805476 6170.165 9218.18 33503.06 6.205502 2015-Nov-03 00:00 * 242.16405 5.98661 0.04727787870808 2315.018 8586.96 31208.92 6.378853 ********************************************************************************************* Apparent Magnitudes, Solar Elongations, Lunar Elongations, and Lunar Illumination: 2009 FD Date__(UT)__HR:MN R.A._(a-appar)_DEC. delta APmag S-brt S-O-T /r T-O-M/Illu% 2015-Oct-25 00:00 246.98815 -4.73179 0.06025602083186 23. 10. 38.1189 /T 109.0/ 90.9 2015-Oct-26 00:00 253.95277 -2.35353 0.05363105439998 22. 10. 44.5674 /T 116.6/ 96.6 2015-Oct-27 00:00 262.62395 0.66525 0.04812554081886 21. 9. 52.8680 /T 122.0/ 99.6 2015-Oct-28 00:00 273.17059 4.30516 0.04414060914070 19.72 8.97 63.1496 /T 124.6/ 99.5 2015-Oct-29 00:00 285.35416 8.28105 0.04209485674473 18.94 8.61 75.0394 /T 124.7/ 96.6 2015-Oct-30 00:00 298.32787 12.02929 0.04226055997178 18.39 8.32 87.4982 /T 123.8/ 91.2 2015-Oct-31 00:00 310.86046 15.00445 0.04460806602029 18.08 8.09 99.1943 /T 123.5/ 83.7 2015-Nov-01 00:00 321.94362 17.01596 0.04882323160709 17.96 7.92 109.1887 /T 124.9/ 74.9 2015-Nov-02 00:00 331.16817 18.21109 0.05447742039852 17.97 7.78 117.2117 /T 128.2/ 65.2 2015-Nov-03 00:00 338.61365 18.84685 0.06117883066764 18.06 7.68 123.4445 /T 133.1/ 55.3 2015-Nov-04 00:00 344.57132 19.14079 0.06862923244571 18.19 7.61 128.2229 /T 139.0/ 45.4 2015-Nov-05 00:00 349.35869 19.23810 0.07661969794959 18.34 7.55 131.8741 /T 145.6/ 35.9 2015-Nov-06 00:00 353.24671 19.22640 0.08500829242130 18.50 7.51 134.6647 /T 152.3/ 27.0 2015-Nov-07 00:00 356.44631 19.15647 0.09369901943698 18.66 7.48 136.7971 /T 158.2/ 19.1 2015-Nov-08 00:00 359.11602 19.05731 0.10262644197028 18.83 7.45 138.4217 /T 161.7/ 12.3 2015-Nov-09 00:00 1.37380 18.94540 0.11174537929760 18.99 7.44 139.6501 /T 160.5/ 6.8 2015-Nov-10 00:00 3.30767 18.83009 0.12102419230760 19.15 7.43 140.5651 /T 154.9/ 2.9 2015-Nov-11 00:00 4.98385 18.71665 0.13044041731885 19.30 7.43 141.2293 /T 146.8/ 0.6 2015-Nov-12 00:00 6.45266 18.60794 0.13997790061564 19.45 7.43 141.6903 /T 137.3/ 0.2 2015-Nov-13 00:00 7.75285 18.50550 0.14962489105302 19.60 7.43 141.9849 /T 127.1/ 1.7 2015-Nov-14 00:00 8.91457 18.41002 0.15937275039825 19.74 7.44 142.1422 /T 116.2/ 5.2 2015-Nov-15 00:00 9.96156 18.32175 0.16921506800935 19.88 7.45 142.1848 /T 104.9/ 10.6 2015-Nov-16 00:00 10.91273 18.24065 0.17914704474933 20.01 7.46 142.1312 /T 93.3/ 17.7 2015-Nov-17 00:00 11.78327 18.16654 0.18916505940688 20.14 7.47 141.9961 /T 81.3/ 26.4 2015-Nov-18 00:00 12.58551 18.09916 0.19926636116895 20.26 7.48 141.7916 /T 69.1/ 36.3 2015-Nov-19 00:00 13.32954 18.03822 0.20944885100278 20.39 7.50 141.5278 /T 56.5/ 47.1 2015-Nov-20 00:00 14.02369 17.98339 0.21971092729189 20.50 7.51 141.2129 /T 43.8/ 58.3 2015 TB145 JPL/Horizons solution 7 Date__(UT)__HR:MN R.A._(a-appar)_DEC. delta APmag S-O-T /r T-O-M/Illu% 2015-Oct-25 00:00 65.08650 -1.68474 0.13584163931761 17.09 141.7618 /L 68.9/ 90.9 2015-Oct-26 00:00 65.26349 -1.50421 0.11556829568289 16.71 142.4403 /L 54.9/ 96.6 2015-Oct-27 00:00 65.49256 -1.23710 0.09532658561073 16.26 143.1036 /L 41.4/ 99.6 2015-Oct-28 00:00 65.82032 -0.81544 0.07511425531181 15.70 143.7390 /L 28.8/ 99.5 2015-Oct-29 00:00 66.36185 -0.07197 0.05493217675755 14.99 144.3107 /L 19.0/ 96.6 2015-Oct-30 00:00 67.49884 1.54660 0.03479423010036 13.97 144.6697 /L 15.8/ 91.2 2015-Oct-31 00:00 71.70263 7.57001 0.01481794721528 12.14 143.3240 /L 16.3/ 83.7 2015-Nov-01 00:00 226.15963 26.68651 0.00659118727381 15. 42.1406 /T 112.1/ 74.9 2015-Nov-02 00:00 240.38116 8.69809 0.02611766262551 20. 32.9571 /T 122.4/ 65.2 2015-Nov-03 00:00 242.17691 6.12506 0.04622141410015 21. 32.0020 /T 113.7/ 55.3 2015-Nov-04 00:00 242.86582 5.09958 0.06639633356553 22. 31.3030 /T 103.3/ 45.4 2015-Nov-05 00:00 243.21850 4.53889 0.08661292930880 22. 30.6502 /T 92.4/ 35.9 2015-Nov-06 00:00 243.42205 4.17621 0.10687081059283 23. 30.0154 /T 81.5/ 27.0 2015-Nov-07 00:00 243.54439 3.91381 0.12717620126375 23. 29.3931 /T 70.6/ 19.1 2015-Nov-08 00:00 243.61614 3.70725 0.14753800443353 23. 28.7825 /T 59.7/ 12.3 2015-Nov-09 00:00 243.65312 3.53318 0.16796677187278 23. 28.1838 /T 49.0/ 6.8 2015-Nov-10 00:00 243.66437 3.37801 0.18847439542688 24. 27.5980 /T 38.6/ 2.9 *************************************************************************************************************
Setups
2009 FD Based on the rotation period and estimated diameter, we are expecting a bandwidth of about 6 Hz if the view is close to equatorial. The CW setup below will boost chances for seeing an echo quickly, estimating a Doppler correction, and resolving the echo in Doppler frequency. We expect to switch to ranging quickly after obtaining a CW detection. CW setup: --------------------------------------------------------------------------- TX polarization RCP RCV polarization LCP & RCP Frequency hops: no hopping Bandwidth: 5000 Hz TXoffset +500 Hz FFT for PFS files: 5000 for 1.0 Hz resolution Ranging setups: --------------------------------------------------------------------------- 10-usec baud 10 usec code 127 PRP 1270 usec FFT 128 ncoh 1 bandwidth 787 Hz resolution 6.15 Hz TXOFF +100 Hz (column 81) --------------------------------------------------------------------------- 11-usec baud 11 usec code 127 PRP 1397 usec FFT 128 ncoh 1 bandwidth 716 Hz resolution 5.6 Hz TXOFF +100 Hz (column 82) ---------------------------------------------------------------------
Instructions
NOTE: Data should be moved to the appropriate subdirectories in aardvark:/export/data0/2009fd/raw/
POINTING:
OSOD and predicts will be on aardvark: ...not available yet... POINTING TX Offsets Date (UTC) DOY hhmmss RA Dec Macro LHA Dec RTT OSOD ...not available yet... Transmit offsets will be given in millidegrees.
PRDX.OUT.14f-14-14.?? TRANSMITTER: STATION #14, RECEIVER: STATION #14 RECEIVER U.T. RANGE DOPPLER LHA DEC RA EL
2009 FD GOLDSTONE MASTERLOG
============================================================================== Receive TX Setup hops dwell code ncoh FFT runs start -stop OSOD offset Poln Notes ------------------------------------------------------------------------------
Dr. Lance A. M. Benner | PHONE: (818) 354-7412 Mail Stop 183-601 | FAX: (818) 393-4445 Jet Propulsion Laboratory | email: lance.benner@jpl.nasa.gov California Institute of Technology | Plan: To live long and prosper Pasadena, CA 91109-8099 http://echo.jpl.nasa.gov/asteroids/2009FD/2009FD_planning.html
Asteroid Radar Astronomy
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