KPL/PCK JUICE mission-specific Planetary Constants (PCK) SPICE Kernel =============================================================================== This file makes available for use in SPICE-based application software orientation and size/shape data (modeled as tri-axial ellipsoids) for the Jupiter system natural satellites under study in the JUpiter ICy moons Explorer (JUICE) mission. The data in this file corresponds to the best knowledge of the orientation, size and shape of each of the JUICE targets. Version and Date ----------------------------------------------------------------------------- Version 008 -- November 9, 2022 -- Marc Costa Sitja, ESAC/ESA Added Jupiter Rings Model. Version 007 -- July 22, 2022 -- Marc Costa Sitja, ESAC/ESA Removed Name and ID definitions and moved them to the JUICE Science Frames kernel. Updated and added orientation placeholders. Version 006 -- December 28, 2020 -- Alfredo Escalante, ESAC/ESA Introduce IAU frames definitions for bodies with IDs from 506 to 527 in order to avoid SPICE built-in definition of body 519 (MEGACLITE) with wrong name. Version 005 -- November 30, 2020 -- Tilmann Denk, DLR Alfredo Escalante, ESAC/ESA Fixed typo for IAU_S2003_J18 satellite. Introduce object to frame association for bodies with IDs greater than 527. Version 004 -- June 15, 2020 -- Tilmann Denk, DLR Marc Costa Sitja, ESAC/ESA Added further names, IDs and sizes for outer satellites from jup343 and from Scott Sheppard's website. Corrected Names and IDs for natural satellites from jup343 and jup300. Version 003 -- May, 4, 2020 -- Marc Costa Sitja, ESAC/ESA Added Names and IDs for natural satellites from jup343. Version 002 -- December, 17, 2019 -- Marc Costa Sitja, ESAC/ESA Added Names and IDs for natural satellites with temporal names. Version 001 -- October, 11, 2018 -- Marc Costa Sitja, ESAC/ESA Added placeholder IDs, radii, prime meridian, pole and longitudinal axis for a series of small moons required by the JUICE SOC. Version 000 -- February 27, 2018 -- Marc Costa Sitja, ESAC/ESA Initial release with data from 2009 IAU report and placeholders for orientation data for Himalia, Elara, Pasiphae, Sinope, Lysithea, Carme, Ananke and Leda. References and Sources ----------------------------------------------------------------------------- 1. ``PCK required reading'', NAIF 2. ``NAIF Integer ID codes required reading,'' NAIF The sources for the constants listed in this file are: 3. Archinal, B.A., A'Hearn, M.F., Bowell, E., Conrad, A., Consolmagno, G.J., Courtin, R., Fukushima, T., Hestroffer, D., Hilton, J.L., Krasinsky, G.A., Neumann, G., Oberst, J., Seidelmann, P.K., Stooke, P., Tholen, D.J., Thomas, P.C., and Williams, I.P. "Report of the IAU Working Group on Cartographic Coordinates and Rotational Elements: 2009." 4. Archinal, B.A., A'Hearn, M.F., Conrad, A., Consolmagno, G.J., Courtin, R., Fukushima, T., Hestroffer, D., Hilton, J.L., Krasinsky, G.A., Neumann, G., Oberst, J., Seidelmann, P.K., Stooke, P., Tholen, D.J., Thomas, P.C., and Williams, I.P. "Erratum to: Reports of the IAU Working Group on Cartographic Coordinates and Rotational Elements: 2006 & 2009." 5. Seidelmann, P.K., Archinal, B.A., A'Hearn, M.F., Conrad, A., Consolmagno, G.J., Hestroffer, D., Hilton, J.L., Krasinsky, G.A., Neumann, G., Oberst, J., Stooke, P., Tedesco, E.F., Tholen, D.J., and Thomas, P.C. "Report of the IAU/IAG Working Group on cartographic coordinates and rotational elements: 2006." 6. Sheppard, S.S., ``Moons of Jupiter'' https://sites.google.com/carnegiescience.edu/sheppard/moons/jupitermoons 7. Porco, C. et al., ``Cassini Imaging of Jupiter's Atmosphere, Satellites, and Rings: 2003'' 8. De Pater, I., et al., ``The rings of Jupiter''. In M. S. Tiscareno and C. D. Murray (eds.), Planetary Ring Systems, Cambridge University Press, 125-134, 2018. DOI: 10.1017/9781316286791.006 (https://pds-rings.seti.org/jupiter/jupiter_rings_table.html) Contact Information ----------------------------------------------------------------------------- If you have any questions regarding this file contact the ESA SPICE Service at ESAC: Alfredo Escalante Lopez (+34) 91-8131-429 spice@sciops.esa.int, alfredo.escalante@ext.esa.int or the JUICE Science Operations Center at ESAC: Marc Costa Sitja (+34) 91-8131-236 Marc.Costa@ext.esa.int Orientation constants for the Jovian Satellites ----------------------------------------------------------------------------- The current version of this file provides orientation constants only for the following Jovian satellites: 501 Io 502 Europa 503 Ganymede 504 Callisto 505 Amalthea 514 Thebe 515 Adrastea 516 Metis Orientation for all other satellites is currently unknown. Io -- Current values (from [3]): \begindata BODY501_POLE_RA = ( 268.05 -0.009 0. ) BODY501_POLE_DEC = ( 64.50 0.003 0. ) BODY501_PM = ( 200.39 203.4889538 0. ) BODY501_LONG_AXIS = ( 0. ) BODY501_NUT_PREC_RA = ( 0. 0. 0.094 0.024 ) BODY501_NUT_PREC_DEC = ( 0. 0. 0.040 0.011 ) BODY501_NUT_PREC_PM = ( 0. 0. -0.085 -0.022 ) \begintext Europa ------ Current values (from [3]): \begindata BODY502_POLE_RA = ( 268.08 -0.009 0. ) BODY502_POLE_DEC = ( 64.51 0.003 0. ) BODY502_PM = ( 36.022 101.3747235 0. ) BODY502_LONG_AXIS = ( 0. ) BODY502_NUT_PREC_RA = ( 0. 0. 0. 1.086 0.060 0.015 0.009 ) BODY502_NUT_PREC_DEC = ( 0. 0. 0. 0.468 0.026 0.007 0.002 ) BODY502_NUT_PREC_PM = ( 0. 0. 0. -0.980 -0.054 -0.014 -0.008 ) \begintext Ganymede -------- Current values (from [3]): \begindata BODY503_POLE_RA = ( 268.20 -0.009 0. ) BODY503_POLE_DEC = ( 64.57 0.003 0. ) BODY503_PM = ( 44.064 50.3176081 0. ) BODY503_LONG_AXIS = ( 0. ) BODY503_NUT_PREC_RA = ( 0. 0. 0. -0.037 0.431 0.091 ) BODY503_NUT_PREC_DEC = ( 0. 0. 0. -0.016 0.186 0.039 ) BODY503_NUT_PREC_PM = ( 0. 0. 0. 0.033 -0.389 -0.082 ) \begintext Callisto -------- Current values (from [3]): \begindata BODY504_POLE_RA = ( 268.72 -0.009 0. ) BODY504_POLE_DEC = ( 64.83 0.003 0. ) BODY504_PM = ( 259.51 21.5710715 0. ) BODY504_LONG_AXIS = ( 0. ) BODY504_NUT_PREC_RA = ( 0. 0. 0. 0. -0.068 0.590 0. 0.010 ) BODY504_NUT_PREC_DEC = ( 0. 0. 0. 0. -0.029 0.254 0. -0.004 ) BODY504_NUT_PREC_PM = ( 0. 0. 0. 0. 0.061 -0.533 0. -0.009 ) \begintext Amalthea -------- Current values (from [3]): \begindata BODY505_POLE_RA = ( 268.05 -0.009 0. ) BODY505_POLE_DEC = ( 64.49 0.003 0. ) BODY505_PM = ( 231.67 722.6314560 0. ) BODY505_LONG_AXIS = ( 0. ) BODY505_NUT_PREC_RA = ( -0.84 0. 0. 0. 0. 0. 0. 0. 0.01 0. ) BODY505_NUT_PREC_DEC = ( -0.36 0. 0. 0. 0. 0. 0. 0. 0. 0. ) BODY505_NUT_PREC_PM = ( 0.76 0. 0. 0. 0. 0. 0. 0. -0.01 0. ) \begintext Thebe ----- Current values (from [3]): \begindata BODY514_POLE_RA = ( 268.05 -0.009 0. ) BODY514_POLE_DEC = ( 64.49 0.003 0. ) BODY514_PM = ( 8.56 533.7004100 0. ) BODY514_LONG_AXIS = ( 0. ) BODY514_NUT_PREC_RA = ( 0. -2.11 0. 0. 0. 0. 0. 0. 0. 0.04 ) BODY514_NUT_PREC_DEC = ( 0. -0.91 0. 0. 0. 0. 0. 0. 0. 0.01 ) BODY514_NUT_PREC_PM = ( 0. 1.91 0. 0. 0. 0. 0. 0. 0. -0.04 ) \begintext Adrastea -------- Current values (from [3]): \begindata BODY515_POLE_RA = ( 268.05 -0.009 0. ) BODY515_POLE_DEC = ( 64.49 0.003 0. ) BODY515_PM = ( 33.29 1206.9986602 0. ) BODY515_LONG_AXIS = ( 0. ) \begintext Metis ----- Current values (from [3]): \begindata BODY516_POLE_RA = ( 268.05 -0.009 0. ) BODY516_POLE_DEC = ( 64.49 0.003 0. ) BODY516_PM = ( 346.09 1221.2547301 0. ) BODY516_LONG_AXIS = ( 0. ) \begintext The following section provides a placeholder for orientation data for the following Jovian satellites. These placeholders are provided hereafter only to allow SPICE applications requiring these satellites to be modeled as extended objects. 517 Callirrhoe 518 Themisto 519 Megaclite 520 Taygete 521 Chaldene 522 Harpalyke 523 Kalyke 524 Iocaste 525 Erinome 526 Isonoe 527 Praxidike 528 Autonoe 529 Thyone 530 Hermippe 531 Aitne 532 Eurydome 533 Euanthe 534 Euporie 535 Orthosie 536 Sponde 537 Kale 538 Pasithee 539 Hegemone 540 Mneme 541 Aoede 542 Thelxinoe 543 Arche 544 Kallichore 545 Helike 546 Carpo 547 Eukelade 548 Cyllene 549 Kore 550 Herse 551 S2010_J1 552 S2010_J2 553 Dia 554 S2016_J1 555 S2003_J18 556 S2011_J2 557 Eirene 558 Philophrosyne 559 S2017_J1 560 Eupheme 561 S2003_J19 562 Valetudo 563 S2017_J2 564 S2017_J3 565 Pandia 566 S2017_J5 567 S2017_J6 568 S2017_J7 569 S2017_J8 570 S2017_J9 571 Ersa 572 S2011_J1 55501 S2003_J2 55502 S2003_J4 55503 S2003_J9 55504 S2003_J10 55505 S2003_J12 55506 S2003_J16 55507 S2003_J23 55508 S2003_J24 When/if data become available, the corresponding data assignments shall be placed in the appropriate section of this file. The PLACEHOLDER data provided hereafter co-aligns the IAU_* frame for the satellite to J2000 at all times. \begindata FRAME_IAU_HIMALIA = 506 FRAME_506_NAME = 'IAU_HIMALIA' FRAME_506_CLASS = 2 FRAME_506_CLASS_ID = 506 FRAME_506_CENTER = 506 OBJECT_506_FRAME = 'IAU_HIMALIA' BODY506_POLE_RA = ( 0. 0. 0. ) BODY506_POLE_DEC = ( 90. 0. 0. ) BODY506_PM = ( -90. 0. 0. ) BODY506_LONG_AXIS = ( 0. ) FRAME_IAU_ELARA = 507 FRAME_507_NAME = 'IAU_ELARA' FRAME_507_CLASS = 2 FRAME_507_CLASS_ID = 507 FRAME_507_CENTER = 507 OBJECT_507_FRAME = 'IAU_ELARA' BODY507_POLE_RA = ( 0. 0. 0. ) BODY507_POLE_DEC = ( 90. 0. 0. ) BODY507_PM = ( -90. 0. 0. ) BODY507_LONG_AXIS = ( 0. ) FRAME_IAU_PASIPHAE = 508 FRAME_508_NAME = 'IAU_PASIPHAE' FRAME_508_CLASS = 2 FRAME_508_CLASS_ID = 508 FRAME_508_CENTER = 508 OBJECT_508_FRAME = 'IAU_PASIPHAE' BODY508_POLE_RA = ( 0. 0. 0. ) BODY508_POLE_DEC = ( 90. 0. 0. ) BODY508_PM = ( -90. 0. 0. ) BODY508_LONG_AXIS = ( 0. ) FRAME_IAU_SINOPE = 509 FRAME_509_NAME = 'IAU_SINOPE' FRAME_509_CLASS = 2 FRAME_509_CLASS_ID = 509 FRAME_509_CENTER = 509 OBJECT_509_FRAME = 'IAU_SINOPE' BODY509_POLE_RA = ( 0. 0. 0. ) BODY509_POLE_DEC = ( 90. 0. 0. ) BODY509_PM = ( -90. 0. 0. ) BODY509_LONG_AXIS = ( 0. ) FRAME_IAU_LYSITHEA = 510 FRAME_510_NAME = 'IAU_LYSITHEA' FRAME_510_CLASS = 2 FRAME_510_CLASS_ID = 510 FRAME_510_CENTER = 510 OBJECT_510_FRAME = 'IAU_LYSITHEA' BODY510_POLE_RA = ( 0. 0. 0. ) BODY510_POLE_DEC = ( 90. 0. 0. ) BODY510_PM = ( -90. 0. 0. ) BODY510_LONG_AXIS = ( 0. ) FRAME_IAU_CARME = 511 FRAME_511_NAME = 'IAU_CARME' FRAME_511_CLASS = 2 FRAME_511_CLASS_ID = 511 FRAME_511_CENTER = 511 OBJECT_511_FRAME = 'IAU_CARME' BODY511_POLE_RA = ( 0. 0. 0. ) BODY511_POLE_DEC = ( 90. 0. 0. ) BODY511_PM = ( -90. 0. 0. ) BODY511_LONG_AXIS = ( 0. ) FRAME_IAU_ANANKE = 512 FRAME_512_NAME = 'IAU_ANANKE' FRAME_512_CLASS = 2 FRAME_512_CLASS_ID = 512 FRAME_512_CENTER = 512 OBJECT_512_FRAME = 'IAU_ANANKE' BODY512_POLE_RA = ( 0. 0. 0. ) BODY512_POLE_DEC = ( 90. 0. 0. ) BODY512_PM = ( -90. 0. 0. ) BODY512_LONG_AXIS = ( 0. ) FRAME_IAU_LEDA = 513 FRAME_513_NAME = 'IAU_LEDA' FRAME_513_CLASS = 2 FRAME_513_CLASS_ID = 513 FRAME_513_CENTER = 513 OBJECT_513_FRAME = 'IAU_LEDA' BODY513_POLE_RA = ( 0. 0. 0. ) BODY513_POLE_DEC = ( 90. 0. 0. ) BODY513_PM = ( -90. 0. 0. ) BODY513_LONG_AXIS = ( 0. ) FRAME_IAU_CALLIRRHOE = 517 FRAME_517_NAME = 'IAU_CALLIRRHOE' FRAME_517_CLASS = 2 FRAME_517_CLASS_ID = 517 FRAME_517_CENTER = 517 OBJECT_517_FRAME = 'IAU_CALLIRRHOE' BODY517_POLE_RA = ( 0. 0. 0. ) BODY517_POLE_DEC = ( 90. 0. 0. ) BODY517_PM = ( -90. 0. 0. ) BODY517_LONG_AXIS = ( 0. ) FRAME_IAU_THEMISTO = 518 FRAME_518_NAME = 'IAU_THEMISTO' FRAME_518_CLASS = 2 FRAME_518_CLASS_ID = 518 FRAME_518_CENTER = 518 OBJECT_518_FRAME = 'IAU_THEMISTO' BODY518_POLE_RA = ( 0. 0. 0. ) BODY518_POLE_DEC = ( 90. 0. 0. ) BODY518_PM = ( -90. 0. 0. ) BODY518_LONG_AXIS = ( 0. ) FRAME_IAU_MEGACLITE = 519 FRAME_519_NAME = 'IAU_MEGACLITE' FRAME_519_CLASS = 2 FRAME_519_CLASS_ID = 519 FRAME_519_CENTER = 519 OBJECT_519_FRAME = 'IAU_MEGACLITE' BODY519_POLE_RA = ( 0. 0. 0. ) BODY519_POLE_DEC = ( 90. 0. 0. ) BODY519_PM = ( -90. 0. 0. ) BODY519_LONG_AXIS = ( 0. ) FRAME_IAU_TAYGETE = 520 FRAME_520_NAME = 'IAU_TAYGETE' FRAME_520_CLASS = 2 FRAME_520_CLASS_ID = 520 FRAME_520_CENTER = 520 OBJECT_520_FRAME = 'IAU_TAYGETE' BODY520_POLE_RA = ( 0. 0. 0. ) BODY520_POLE_DEC = ( 90. 0. 0. ) BODY520_PM = ( -90. 0. 0. ) BODY520_LONG_AXIS = ( 0. ) FRAME_IAU_CHALDENE = 521 FRAME_521_NAME = 'IAU_CHALDENE' FRAME_521_CLASS = 2 FRAME_521_CLASS_ID = 521 FRAME_521_CENTER = 521 OBJECT_521_FRAME = 'IAU_CHALDENE' BODY521_POLE_RA = ( 0. 0. 0. ) BODY521_POLE_DEC = ( 90. 0. 0. ) BODY521_PM = ( -90. 0. 0. ) BODY521_LONG_AXIS = ( 0. ) FRAME_IAU_HARPALYKE = 522 FRAME_522_NAME = 'IAU_HARPALYKE' FRAME_522_CLASS = 2 FRAME_522_CLASS_ID = 522 FRAME_522_CENTER = 522 OBJECT_522_FRAME = 'IAU_HARPALYKE' BODY522_POLE_RA = ( 0. 0. 0. ) BODY522_POLE_DEC = ( 90. 0. 0. ) BODY522_PM = ( -90. 0. 0. ) BODY522_LONG_AXIS = ( 0. ) FRAME_IAU_KALYKE = 523 FRAME_523_NAME = 'IAU_KALYKE' FRAME_523_CLASS = 2 FRAME_523_CLASS_ID = 523 FRAME_523_CENTER = 523 OBJECT_523_FRAME = 'IAU_KALYKE' BODY523_POLE_RA = ( 0. 0. 0. ) BODY523_POLE_DEC = ( 90. 0. 0. ) BODY523_PM = ( -90. 0. 0. ) BODY523_LONG_AXIS = ( 0. ) FRAME_IAU_IOCASTE = 524 FRAME_524_NAME = 'IAU_IOCASTE' FRAME_524_CLASS = 2 FRAME_524_CLASS_ID = 524 FRAME_524_CENTER = 524 OBJECT_524_FRAME = 'IAU_IOCASTE' BODY524_POLE_RA = ( 0. 0. 0. ) BODY524_POLE_DEC = ( 90. 0. 0. ) BODY524_PM = ( -90. 0. 0. ) BODY524_LONG_AXIS = ( 0. ) FRAME_IAU_ERINOME = 525 FRAME_525_NAME = 'IAU_ERINOME' FRAME_525_CLASS = 2 FRAME_525_CLASS_ID = 525 FRAME_525_CENTER = 525 OBJECT_525_FRAME = 'IAU_ERINOME' BODY525_POLE_RA = ( 0. 0. 0. ) BODY525_POLE_DEC = ( 90. 0. 0. ) BODY525_PM = ( -90. 0. 0. ) BODY525_LONG_AXIS = ( 0. ) FRAME_IAU_ISONOE = 526 FRAME_526_NAME = 'IAU_ISONOE' FRAME_526_CLASS = 2 FRAME_526_CLASS_ID = 526 FRAME_526_CENTER = 526 OBJECT_526_FRAME = 'IAU_ISONOE' BODY526_POLE_RA = ( 0. 0. 0. ) BODY526_POLE_DEC = ( 90. 0. 0. ) BODY526_PM = ( -90. 0. 0. ) BODY526_LONG_AXIS = ( 0. ) FRAME_IAU_PRAXIDIKE = 527 FRAME_527_NAME = 'IAU_PRAXIDIKE' FRAME_527_CLASS = 2 FRAME_527_CLASS_ID = 527 FRAME_527_CENTER = 527 OBJECT_527_FRAME = 'IAU_PRAXIDIKE' BODY527_POLE_RA = ( 0. 0. 0. ) BODY527_POLE_DEC = ( 90. 0. 0. ) BODY527_PM = ( -90. 0. 0. ) BODY527_LONG_AXIS = ( 0. ) FRAME_IAU_AUTONOE = 528 FRAME_528_NAME = 'IAU_AUTONOE' FRAME_528_CLASS = 2 FRAME_528_CLASS_ID = 528 FRAME_528_CENTER = 528 OBJECT_528_FRAME = 'IAU_AUTONOE' BODY528_POLE_RA = ( 0. 0. 0. ) BODY528_POLE_DEC = ( 90. 0. 0. ) BODY528_PM = ( -90. 0. 0. ) BODY528_LONG_AXIS = ( 0. ) FRAME_IAU_THYONE = 529 FRAME_529_NAME = 'IAU_THYONE' FRAME_529_CLASS = 2 FRAME_529_CLASS_ID = 529 FRAME_529_CENTER = 529 OBJECT_529_FRAME = 'IAU_THYONE' BODY529_POLE_RA = ( 0. 0. 0. ) BODY529_POLE_DEC = ( 90. 0. 0. ) BODY529_PM = ( -90. 0. 0. ) BODY529_LONG_AXIS = ( 0. ) FRAME_IAU_HERMIPPE = 530 FRAME_530_NAME = 'IAU_HERMIPPE' FRAME_530_CLASS = 2 FRAME_530_CLASS_ID = 530 FRAME_530_CENTER = 530 OBJECT_530_FRAME = 'IAU_HERMIPPE' BODY530_POLE_RA = ( 0. 0. 0. ) BODY530_POLE_DEC = ( 90. 0. 0. ) BODY530_PM = ( -90. 0. 0. ) BODY530_LONG_AXIS = ( 0. ) FRAME_IAU_AITNE = 531 FRAME_531_NAME = 'IAU_AITNE' FRAME_531_CLASS = 2 FRAME_531_CLASS_ID = 531 FRAME_531_CENTER = 531 OBJECT_531_FRAME = 'IAU_AITNE' BODY531_POLE_RA = ( 0. 0. 0. ) BODY531_POLE_DEC = ( 90. 0. 0. ) BODY531_PM = ( -90. 0. 0. ) BODY531_LONG_AXIS = ( 0. ) FRAME_IAU_EURYDOME = 532 FRAME_532_NAME = 'IAU_EURYDOME' FRAME_532_CLASS = 2 FRAME_532_CLASS_ID = 532 FRAME_532_CENTER = 532 OBJECT_532_FRAME = 'IAU_EURYDOME' BODY532_POLE_RA = ( 0. 0. 0. ) BODY532_POLE_DEC = ( 90. 0. 0. ) BODY532_PM = ( -90. 0. 0. ) BODY532_LONG_AXIS = ( 0. ) FRAME_IAU_EUANTHE = 533 FRAME_533_NAME = 'IAU_EUANTHE' FRAME_533_CLASS = 2 FRAME_533_CLASS_ID = 533 FRAME_533_CENTER = 533 OBJECT_533_FRAME = 'IAU_EUANTHE' BODY533_POLE_RA = ( 0. 0. 0. ) BODY533_POLE_DEC = ( 90. 0. 0. ) BODY533_PM = ( -90. 0. 0. ) BODY533_LONG_AXIS = ( 0. ) FRAME_IAU_EUPORIE = 534 FRAME_534_NAME = 'IAU_EUPORIE' FRAME_534_CLASS = 2 FRAME_534_CLASS_ID = 534 FRAME_534_CENTER = 534 OBJECT_534_FRAME = 'IAU_EUPORIE' BODY534_POLE_RA = ( 0. 0. 0. ) BODY534_POLE_DEC = ( 90. 0. 0. ) BODY534_PM = ( -90. 0. 0. ) BODY534_LONG_AXIS = ( 0. ) FRAME_IAU_ORTHOSIE = 535 FRAME_535_NAME = 'IAU_ORTHOSIE' FRAME_535_CLASS = 2 FRAME_535_CLASS_ID = 535 FRAME_535_CENTER = 535 OBJECT_535_FRAME = 'IAU_ORTHOSIE' BODY535_POLE_RA = ( 0. 0. 0. ) BODY535_POLE_DEC = ( 90. 0. 0. ) BODY535_PM = ( -90. 0. 0. ) BODY535_LONG_AXIS = ( 0. ) FRAME_IAU_SPONDE = 536 FRAME_536_NAME = 'IAU_SPONDE' FRAME_536_CLASS = 2 FRAME_536_CLASS_ID = 536 FRAME_536_CENTER = 536 OBJECT_536_FRAME = 'IAU_SPONDE' BODY536_POLE_RA = ( 0. 0. 0. ) BODY536_POLE_DEC = ( 90. 0. 0. ) BODY536_PM = ( -90. 0. 0. ) BODY536_LONG_AXIS = ( 0. ) FRAME_IAU_KALE = 537 FRAME_537_NAME = 'IAU_KALE' FRAME_537_CLASS = 2 FRAME_537_CLASS_ID = 537 FRAME_537_CENTER = 537 OBJECT_537_FRAME = 'IAU_KALE' BODY537_POLE_RA = ( 0. 0. 0. ) BODY537_POLE_DEC = ( 90. 0. 0. ) BODY537_PM = ( -90. 0. 0. ) BODY537_LONG_AXIS = ( 0. ) FRAME_IAU_PASITHEE = 538 FRAME_538_NAME = 'IAU_PASITHEE' FRAME_538_CLASS = 2 FRAME_538_CLASS_ID = 538 FRAME_538_CENTER = 538 OBJECT_538_FRAME = 'IAU_PASITHEE' BODY538_POLE_RA = ( 0. 0. 0. ) BODY538_POLE_DEC = ( 90. 0. 0. ) BODY538_PM = ( -90. 0. 0. ) BODY538_LONG_AXIS = ( 0. ) FRAME_IAU_HEGEMONE = 539 FRAME_539_NAME = 'IAU_HEGEMONE' FRAME_539_CLASS = 2 FRAME_539_CLASS_ID = 539 FRAME_539_CENTER = 539 OBJECT_539_FRAME = 'IAU_HEGEMONE' BODY539_POLE_RA = ( 0. 0. 0. ) BODY539_POLE_DEC = ( 90. 0. 0. ) BODY539_PM = ( -90. 0. 0. ) BODY539_LONG_AXIS = ( 0. ) FRAME_IAU_MNEME = 540 FRAME_540_NAME = 'IAU_MNEME' FRAME_540_CLASS = 2 FRAME_540_CLASS_ID = 540 FRAME_540_CENTER = 540 OBJECT_540_FRAME = 'IAU_MNEME' BODY540_POLE_RA = ( 0. 0. 0. ) BODY540_POLE_DEC = ( 90. 0. 0. ) BODY540_PM = ( -90. 0. 0. ) BODY540_LONG_AXIS = ( 0. ) FRAME_IAU_AOEDE = 541 FRAME_541_NAME = 'IAU_AOEDE' FRAME_541_CLASS = 2 FRAME_541_CLASS_ID = 541 FRAME_541_CENTER = 541 OBJECT_541_FRAME = 'IAU_AOEDE' BODY541_POLE_RA = ( 0. 0. 0. ) BODY541_POLE_DEC = ( 90. 0. 0. ) BODY541_PM = ( -90. 0. 0. ) BODY541_LONG_AXIS = ( 0. ) FRAME_IAU_THELXINOE = 542 FRAME_542_NAME = 'IAU_THELXINOE' FRAME_542_CLASS = 2 FRAME_542_CLASS_ID = 542 FRAME_542_CENTER = 542 OBJECT_542_FRAME = 'IAU_THELXINOE' BODY542_POLE_RA = ( 0. 0. 0. ) BODY542_POLE_DEC = ( 90. 0. 0. ) BODY542_PM = ( -90. 0. 0. ) BODY542_LONG_AXIS = ( 0. ) FRAME_IAU_ARCHE = 543 FRAME_543_NAME = 'IAU_ARCHE' FRAME_543_CLASS = 2 FRAME_543_CLASS_ID = 543 FRAME_543_CENTER = 543 OBJECT_543_FRAME = 'IAU_ARCHE' BODY543_POLE_RA = ( 0. 0. 0. ) BODY543_POLE_DEC = ( 90. 0. 0. ) BODY543_PM = ( -90. 0. 0. ) BODY543_LONG_AXIS = ( 0. ) FRAME_IAU_KALLICHORE = 544 FRAME_544_NAME = 'IAU_KALLICHORE' FRAME_544_CLASS = 2 FRAME_544_CLASS_ID = 544 FRAME_544_CENTER = 544 OBJECT_544_FRAME = 'IAU_KALLICHORE' BODY544_POLE_RA = ( 0. 0. 0. ) BODY544_POLE_DEC = ( 90. 0. 0. ) BODY544_PM = ( -90. 0. 0. ) BODY544_LONG_AXIS = ( 0. ) FRAME_IAU_HELIKE = 545 FRAME_545_NAME = 'IAU_HELIKE' FRAME_545_CLASS = 2 FRAME_545_CLASS_ID = 545 FRAME_545_CENTER = 545 OBJECT_545_FRAME = 'IAU_HELIKE' BODY545_POLE_RA = ( 0. 0. 0. ) BODY545_POLE_DEC = ( 90. 0. 0. ) BODY545_PM = ( -90. 0. 0. ) BODY545_LONG_AXIS = ( 0. ) FRAME_IAU_CARPO = 546 FRAME_546_NAME = 'IAU_CARPO' FRAME_546_CLASS = 2 FRAME_546_CLASS_ID = 546 FRAME_546_CENTER = 546 OBJECT_546_FRAME = 'IAU_CARPO' BODY546_POLE_RA = ( 0. 0. 0. ) BODY546_POLE_DEC = ( 90. 0. 0. ) BODY546_PM = ( -90. 0. 0. ) BODY546_LONG_AXIS = ( 0. ) FRAME_IAU_EUKELADE = 547 FRAME_547_NAME = 'IAU_EUKELADE' FRAME_547_CLASS = 2 FRAME_547_CLASS_ID = 547 FRAME_547_CENTER = 547 OBJECT_547_FRAME = 'IAU_EUKELADE' BODY547_POLE_RA = ( 0. 0. 0. ) BODY547_POLE_DEC = ( 90. 0. 0. ) BODY547_PM = ( -90. 0. 0. ) BODY547_LONG_AXIS = ( 0. ) FRAME_IAU_CYLLENE = 548 FRAME_548_NAME = 'IAU_CYLLENE' FRAME_548_CLASS = 2 FRAME_548_CLASS_ID = 548 FRAME_548_CENTER = 548 OBJECT_548_FRAME = 'IAU_CYLLENE' BODY548_POLE_RA = ( 0. 0. 0. ) BODY548_POLE_DEC = ( 90. 0. 0. ) BODY548_PM = ( -90. 0. 0. ) BODY548_LONG_AXIS = ( 0. ) FRAME_IAU_KORE = 549 FRAME_549_NAME = 'IAU_KORE' FRAME_549_CLASS = 2 FRAME_549_CLASS_ID = 549 FRAME_549_CENTER = 549 OBJECT_549_FRAME = 'IAU_KORE' BODY549_POLE_RA = ( 0. 0. 0. ) BODY549_POLE_DEC = ( 90. 0. 0. ) BODY549_PM = ( -90. 0. 0. ) BODY549_LONG_AXIS = ( 0. ) FRAME_IAU_HERSE = 550 FRAME_550_NAME = 'IAU_HERSE' FRAME_550_CLASS = 2 FRAME_550_CLASS_ID = 550 FRAME_550_CENTER = 550 OBJECT_550_FRAME = 'IAU_HERSE' BODY550_POLE_RA = ( 0. 0. 0. ) BODY550_POLE_DEC = ( 90. 0. 0. ) BODY550_PM = ( -90. 0. 0. ) BODY550_LONG_AXIS = ( 0. ) FRAME_IAU_S2010_J1 = 551 FRAME_551_NAME = 'IAU_S2010_J1' FRAME_551_CLASS = 2 FRAME_551_CLASS_ID = 551 FRAME_551_CENTER = 551 OBJECT_551_FRAME = 'IAU_S2010_J1' BODY551_POLE_RA = ( 0. 0. 0. ) BODY551_POLE_DEC = ( 90. 0. 0. ) BODY551_PM = ( -90. 0. 0. ) BODY551_LONG_AXIS = ( 0. ) FRAME_IAU_S2010_J2 = 552 FRAME_552_NAME = 'IAU_S2010_J2' FRAME_552_CLASS = 2 FRAME_552_CLASS_ID = 552 FRAME_552_CENTER = 552 OBJECT_552_FRAME = 'IAU_S2010_J2' BODY552_POLE_RA = ( 0. 0. 0. ) BODY552_POLE_DEC = ( 90. 0. 0. ) BODY552_PM = ( -90. 0. 0. ) BODY552_LONG_AXIS = ( 0. ) FRAME_IAU_DIA = 553 FRAME_553_NAME = 'IAU_DIA' FRAME_553_CLASS = 2 FRAME_553_CLASS_ID = 553 FRAME_553_CENTER = 553 OBJECT_553_FRAME = 'IAU_DIA' BODY553_POLE_RA = ( 0. 0. 0. ) BODY553_POLE_DEC = ( 90. 0. 0. ) BODY553_PM = ( -90. 0. 0. ) BODY553_LONG_AXIS = ( 0. ) FRAME_IAU_S2016_J1 = 554 FRAME_554_NAME = 'IAU_S2016_J1' FRAME_554_CLASS = 2 FRAME_554_CLASS_ID = 554 FRAME_554_CENTER = 554 OBJECT_554_FRAME = 'IAU_S2016_J1' BODY554_POLE_RA = ( 0. 0. 0. ) BODY554_POLE_DEC = ( 90. 0. 0. ) BODY554_PM = ( -90. 0. 0. ) BODY554_LONG_AXIS = ( 0. ) FRAME_IAU_S2003_J18 = 555 FRAME_555_NAME = 'IAU_S2003_J18' FRAME_555_CLASS = 2 FRAME_555_CLASS_ID = 555 FRAME_555_CENTER = 555 OBJECT_555_FRAME = 'IAU_S2003_J18' BODY555_POLE_RA = ( 0. 0. 0. ) BODY555_POLE_DEC = ( 90. 0. 0. ) BODY555_PM = ( -90. 0. 0. ) BODY555_LONG_AXIS = ( 0. ) FRAME_IAU_S2011_J2 = 556 FRAME_556_NAME = 'IAU_S2011_J2' FRAME_556_CLASS = 2 FRAME_556_CLASS_ID = 556 FRAME_556_CENTER = 556 OBJECT_556_FRAME = 'IAU_S2011_J2' BODY556_POLE_RA = ( 0. 0. 0. ) BODY556_POLE_DEC = ( 90. 0. 0. ) BODY556_PM = ( -90. 0. 0. ) BODY556_LONG_AXIS = ( 0. ) FRAME_IAU_EIRENE = 557 FRAME_557_NAME = 'IAU_EIRENE' FRAME_557_CLASS = 2 FRAME_557_CLASS_ID = 557 FRAME_557_CENTER = 557 OBJECT_557_FRAME = 'IAU_EIRENE' BODY557_POLE_RA = ( 0. 0. 0. ) BODY557_POLE_DEC = ( 90. 0. 0. ) BODY557_PM = ( -90. 0. 0. ) BODY557_LONG_AXIS = ( 0. ) FRAME_IAU_PHILOPHROSYNE = 558 FRAME_558_NAME = 'IAU_PHILOPHROSYNE' FRAME_558_CLASS = 2 FRAME_558_CLASS_ID = 558 FRAME_558_CENTER = 558 OBJECT_558_FRAME = 'IAU_PHILOPHROSYNE' BODY558_POLE_RA = ( 0. 0. 0. ) BODY558_POLE_DEC = ( 90. 0. 0. ) BODY558_PM = ( -90. 0. 0. ) BODY558_LONG_AXIS = ( 0. ) FRAME_IAU_S2017_J1 = 559 FRAME_559_NAME = 'IAU_S2017_J1' FRAME_559_CLASS = 2 FRAME_559_CLASS_ID = 559 FRAME_559_CENTER = 559 OBJECT_559_FRAME = 'IAU_S2017_J1' BODY559_POLE_RA = ( 0. 0. 0. ) BODY559_POLE_DEC = ( 90. 0. 0. ) BODY559_PM = ( -90. 0. 0. ) BODY559_LONG_AXIS = ( 0. ) FRAME_IAU_EUPHEME = 560 FRAME_560_NAME = 'IAU_EUPHEME' FRAME_560_CLASS = 2 FRAME_560_CLASS_ID = 560 FRAME_560_CENTER = 560 OBJECT_560_FRAME = 'IAU_EUPHEME' BODY560_POLE_RA = ( 0. 0. 0. ) BODY560_POLE_DEC = ( 90. 0. 0. ) BODY560_PM = ( -90. 0. 0. ) BODY560_LONG_AXIS = ( 0. ) FRAME_IAU_S2003_J19 = 561 FRAME_561_NAME = 'IAU_S2003_J19' FRAME_561_CLASS = 2 FRAME_561_CLASS_ID = 561 FRAME_561_CENTER = 561 OBJECT_561_FRAME = 'IAU_S2003_J19' BODY561_POLE_RA = ( 0. 0. 0. ) BODY561_POLE_DEC = ( 90. 0. 0. ) BODY561_PM = ( -90. 0. 0. ) BODY561_LONG_AXIS = ( 0. ) FRAME_IAU_VALETUDO = 562 FRAME_562_NAME = 'IAU_VALETUDO' FRAME_562_CLASS = 2 FRAME_562_CLASS_ID = 562 FRAME_562_CENTER = 562 OBJECT_562_FRAME = 'IAU_VALETUDO' BODY562_POLE_RA = ( 0. 0. 0. ) BODY562_POLE_DEC = ( 90. 0. 0. ) BODY562_PM = ( -90. 0. 0. ) BODY562_LONG_AXIS = ( 0. ) FRAME_IAU_S2017_J2 = 563 FRAME_563_NAME = 'IAU_S2017_J2' FRAME_563_CLASS = 2 FRAME_563_CLASS_ID = 563 FRAME_563_CENTER = 563 OBJECT_563_FRAME = 'IAU_S2017_J2' BODY563_POLE_RA = ( 0. 0. 0. ) BODY563_POLE_DEC = ( 90. 0. 0. ) BODY563_PM = ( -90. 0. 0. ) BODY563_LONG_AXIS = ( 0. ) FRAME_IAU_S2017_J3 = 564 FRAME_564_NAME = 'IAU_S2017_J3' FRAME_564_CLASS = 2 FRAME_564_CLASS_ID = 564 FRAME_564_CENTER = 564 OBJECT_564_FRAME = 'IAU_S2017_J3' BODY564_POLE_RA = ( 0. 0. 0. ) BODY564_POLE_DEC = ( 90. 0. 0. ) BODY564_PM = ( -90. 0. 0. ) BODY564_LONG_AXIS = ( 0. ) FRAME_IAU_PANDIA = 565 FRAME_565_NAME = 'IAU_PANDIA' FRAME_565_CLASS = 2 FRAME_565_CLASS_ID = 565 FRAME_565_CENTER = 565 OBJECT_565_FRAME = 'IAU_PANDIA' BODY565_POLE_RA = ( 0. 0. 0. ) BODY565_POLE_DEC = ( 90. 0. 0. ) BODY565_PM = ( -90. 0. 0. ) BODY565_LONG_AXIS = ( 0. ) FRAME_IAU_S2017_J5 = 566 FRAME_566_NAME = 'IAU_S2017_J5' FRAME_566_CLASS = 2 FRAME_566_CLASS_ID = 566 FRAME_566_CENTER = 566 OBJECT_566_FRAME = 'IAU_S2017_J5' BODY566_POLE_RA = ( 0. 0. 0. ) BODY566_POLE_DEC = ( 90. 0. 0. ) BODY566_PM = ( -90. 0. 0. ) BODY566_LONG_AXIS = ( 0. ) FRAME_IAU_S2017_J6 = 567 FRAME_567_NAME = 'IAU_S2017_J6' FRAME_567_CLASS = 2 FRAME_567_CLASS_ID = 567 FRAME_567_CENTER = 567 OBJECT_567_FRAME = 'IAU_S2017_J6' BODY567_POLE_RA = ( 0. 0. 0. ) BODY567_POLE_DEC = ( 90. 0. 0. ) BODY567_PM = ( -90. 0. 0. ) BODY567_LONG_AXIS = ( 0. ) FRAME_IAU_S2017_J7 = 568 FRAME_568_NAME = 'IAU_S2017_J7' FRAME_568_CLASS = 2 FRAME_568_CLASS_ID = 568 FRAME_568_CENTER = 568 OBJECT_568_FRAME = 'IAU_S2017_J7' BODY568_POLE_RA = ( 0. 0. 0. ) BODY568_POLE_DEC = ( 90. 0. 0. ) BODY568_PM = ( -90. 0. 0. ) BODY568_LONG_AXIS = ( 0. ) FRAME_IAU_S2017_J8 = 569 FRAME_569_NAME = 'IAU_S2017_J8' FRAME_569_CLASS = 2 FRAME_569_CLASS_ID = 569 FRAME_569_CENTER = 569 OBJECT_569_FRAME = 'IAU_S2017_J8' BODY569_POLE_RA = ( 0. 0. 0. ) BODY569_POLE_DEC = ( 90. 0. 0. ) BODY569_PM = ( -90. 0. 0. ) BODY569_LONG_AXIS = ( 0. ) FRAME_IAU_S2017_J9 = 570 FRAME_570_NAME = 'IAU_S2017_J9' FRAME_570_CLASS = 2 FRAME_570_CLASS_ID = 570 FRAME_570_CENTER = 570 OBJECT_570_FRAME = 'IAU_S2017_J9' BODY570_POLE_RA = ( 0. 0. 0. ) BODY570_POLE_DEC = ( 90. 0. 0. ) BODY570_PM = ( -90. 0. 0. ) BODY570_LONG_AXIS = ( 0. ) FRAME_IAU_ERSA = 571 FRAME_571_NAME = 'IAU_ERSA' FRAME_571_CLASS = 2 FRAME_571_CLASS_ID = 571 FRAME_571_CENTER = 571 OBJECT_571_FRAME = 'IAU_ERSA' BODY571_POLE_RA = ( 0. 0. 0. ) BODY571_POLE_DEC = ( 90. 0. 0. ) BODY571_PM = ( -90. 0. 0. ) BODY571_LONG_AXIS = ( 0. ) FRAME_IAU_S2011_J1 = 572 FRAME_572_NAME = 'IAU_S2011_J1' FRAME_572_CLASS = 2 FRAME_572_CLASS_ID = 572 FRAME_572_CENTER = 572 OBJECT_572_FRAME = 'IAU_S2011_J1' BODY572_POLE_RA = ( 0. 0. 0. ) BODY572_POLE_DEC = ( 90. 0. 0. ) BODY572_PM = ( -90. 0. 0. ) BODY572_LONG_AXIS = ( 0. ) FRAME_IAU_S2003_J2 = 55501 FRAME_55501_NAME = 'IAU_S2003_J2' FRAME_55501_CLASS = 2 FRAME_55501_CLASS_ID = 55501 FRAME_55501_CENTER = 55501 OBJECT_55501_FRAME = 'IAU_S2003_J2' BODY55501_POLE_RA = ( 0. 0. 0. ) BODY55501_POLE_DEC = ( 90. 0. 0. ) BODY55501_PM = ( -90. 0. 0. ) BODY55501_LONG_AXIS = ( 0. ) FRAME_IAU_S2003_J4 = 55502 FRAME_55502_NAME = 'IAU_S2003_J4' FRAME_55502_CLASS = 2 FRAME_55502_CLASS_ID = 55502 FRAME_55502_CENTER = 55502 OBJECT_55502_FRAME = 'IAU_S2003_J4' BODY55502_POLE_RA = ( 0. 0. 0. ) BODY55502_POLE_DEC = ( 90. 0. 0. ) BODY55502_PM = ( -90. 0. 0. ) BODY55502_LONG_AXIS = ( 0. ) FRAME_IAU_S2003_J9 = 55503 FRAME_55503_NAME = 'IAU_S2003_J9' FRAME_55503_CLASS = 2 FRAME_55503_CLASS_ID = 55503 FRAME_55503_CENTER = 55503 OBJECT_55503_FRAME = 'IAU_S2003_J9' BODY55503_POLE_RA = ( 0. 0. 0. ) BODY55503_POLE_DEC = ( 90. 0. 0. ) BODY55503_PM = ( -90. 0. 0. ) BODY55503_LONG_AXIS = ( 0. ) FRAME_IAU_S2003_J10 = 55504 FRAME_55504_NAME = 'IAU_S2003_J10' FRAME_55504_CLASS = 2 FRAME_55504_CLASS_ID = 55504 FRAME_55504_CENTER = 55504 OBJECT_55504_FRAME = 'IAU_S2003_J10' BODY55504_POLE_RA = ( 0. 0. 0. ) BODY55504_POLE_DEC = ( 90. 0. 0. ) BODY55504_PM = ( -90. 0. 0. ) BODY55504_LONG_AXIS = ( 0. ) FRAME_IAU_S2003_J12 = 55505 FRAME_55505_NAME = 'IAU_S2003_J12' FRAME_55505_CLASS = 2 FRAME_55505_CLASS_ID = 55505 FRAME_55505_CENTER = 55505 OBJECT_55505_FRAME = 'IAU_S2003_J12' BODY55505_POLE_RA = ( 0. 0. 0. ) BODY55505_POLE_DEC = ( 90. 0. 0. ) BODY55505_PM = ( -90. 0. 0. ) BODY55505_LONG_AXIS = ( 0. ) FRAME_IAU_S2003_J16 = 55506 FRAME_55506_NAME = 'IAU_S2003_J16' FRAME_55506_CLASS = 2 FRAME_55506_CLASS_ID = 55506 FRAME_55506_CENTER = 55506 OBJECT_55506_FRAME = 'IAU_S2003_J16' BODY55506_POLE_RA = ( 0. 0. 0. ) BODY55506_POLE_DEC = ( 90. 0. 0. ) BODY55506_PM = ( -90. 0. 0. ) BODY55506_LONG_AXIS = ( 0. ) FRAME_IAU_S2003_J23 = 55507 FRAME_55507_NAME = 'IAU_S2003_J23' FRAME_55507_CLASS = 2 FRAME_55507_CLASS_ID = 55507 FRAME_55507_CENTER = 55507 OBJECT_55507_FRAME = 'IAU_S2003_J23' BODY55507_POLE_RA = ( 0. 0. 0. ) BODY55507_POLE_DEC = ( 90. 0. 0. ) BODY55507_PM = ( -90. 0. 0. ) BODY55507_LONG_AXIS = ( 0. ) FRAME_IAU_S2003_J24 = 55508 FRAME_55508_NAME = 'IAU_S2003_J24' FRAME_55508_CLASS = 2 FRAME_55508_CLASS_ID = 55507 FRAME_55508_CENTER = 55507 OBJECT_55508_FRAME = 'IAU_S2003_J24' BODY55508_POLE_RA = ( 0. 0. 0. ) BODY55508_POLE_DEC = ( 90. 0. 0. ) BODY55508_PM = ( -90. 0. 0. ) BODY55508_LONG_AXIS = ( 0. ) \begintext Radii of the Jovian Satellites ----------------------------------------------------------------------------- The following radii (in Km) of the Jovian satellites is used within this file: ID Name X Y Z Source Comments ---- ---------- ------ ------ ------ ------ ------------------- 501 Io 1829.4 1819.4 1815.7 [3] 502 Europa 1562.6 1560.3 1559.5 [3] 503 Ganymede 2631.2 2631.2 2631.2 [3] Mean radii provided 504 Callisto 2410.3 2410.3 2410.3 [3] Mean radii provided 505 Amalthea 125 73 64 [3] 506 Himalia 85 85 85 [3] Mean radii provided 507 Elara 40 40 40 [3] Mean radii provided 508 Pasiphae 18 18 18 [3] Mean radii provided 509 Sinope 14 14 14 [3] Mean radii provided 510 Lysithea 12 12 12 [3] Mean radii provided 511 Carme 15 15 15 [3] Mean radii provided 512 Ananke 10 10 10 [3] Mean radii provided 513 Leda 5 5 5 [3] Mean radii provided 514 Thebe 58 49 42 [3] Mean radii provided 515 Adrastea 10 8 7 [3] Mean radii provided 516 Metis 30 20 17 [3] Mean radii provided 517 Callirrhoe 4 4 4 [6] Placeholder radii 518 Themisto 4 4 4 [6] Placeholder radii 519 Megaclite 3 3 3 [6] Placeholder radii 520 Taygete 2 2 2 [6] Placeholder radii 521 Chaldene 2 2 2 [6] Placeholder radii 522 Harpalyke 2 2 2 [6] Placeholder radii 523 Kalyke 2 2 2 [6] Placeholder radii 524 Iocaste 2 2 2 [6] Placeholder radii 525 Erinome 1 1 1 - Placeholder radii 526 Isonoe 2 2 2 [6] Placeholder radii 527 Praxidike 3 3 3 [6] Placeholder radii 528 Autonoe 2 2 2 [6] Placeholder radii 529 Thyone 2 2 2 [6] Placeholder radii 530 Hermippe 2 2 2 [6] Placeholder radii 531 Aitne 1 1 1 - Placeholder radii 532 Eurydome 1 1 1 - Placeholder radii 533 Euanthe 1 1 1 - Placeholder radii 534 Euporie 1 1 1 - Placeholder radii 535 Orthosie 1 1 1 - Placeholder radii 536 Sponde 1 1 1 - Placeholder radii 537 Kale 1 1 1 - Placeholder radii 538 Pasithee 1 1 1 - Placeholder radii 539 Hegemone 1 1 1 - Placeholder radii 540 Mneme 1 1 1 - Placeholder radii 541 Aoede 2 2 2 [6] Placeholder radii 542 Thelxinoe 1 1 1 - Placeholder radii 543 Arche 1 1 1 - Placeholder radii 544 Kallichore 1 1 1 - Placeholder radii 545 Helike 2 2 2 [6] Placeholder radii 546 Carpo 1 1 1 - Placeholder radii 547 Eukelade 2 2 2 [6] Placeholder radii 548 Cyllene 1 1 1 - Placeholder radii 549 Kore 1 1 1 - Placeholder radii 550 Herse 1 1 1 - Placeholder radii 551 S2010_J1 1 1 1 - Placeholder radii 552 S2010_J2 1 1 1 - Placeholder radii 553 Dia 2 2 2 [6] Placeholder radii 554 S2016_J1 1 1 1 - Placeholder radii 555 S2003_J18 1 1 1 - Placeholder radii 556 S2011_J2 1 1 1 - Placeholder radii 557 Eirene 2 2 2 [6] Placeholder radii 558 Philophrosyn 1 1 1 - Placeholder radii 559 S2017_J1 1 1 1 - Placeholder radii 560 Eupheme 1 1 1 - Placeholder radii 561 S2003_J19 1 1 1 - Placeholder radii 562 Valetudo 1 1 1 - Placeholder radii 563 S2017_J2 1 1 1 - Placeholder radii 564 S2017_J3 1 1 1 - Placeholder radii 565 Pandia 1 1 1 - Placeholder radii 566 S2017_J5 1 1 1 - Placeholder radii 567 S2017_J6 1 1 1 - Placeholder radii 568 S2017_J7 1 1 1 - Placeholder radii 569 S2017_J8 1 1 1 - Placeholder radii 570 S2017_J9 1 1 1 - Placeholder radii 571 Ersa 1 1 1 - Placeholder radii 572 S2011_J1 1 1 1 - Placeholder radii 55501 S2003_J2 1 1 1 - Placeholder radii 55502 S2003_J4 1 1 1 - Placeholder radii 55503 S2003_J9 1 1 1 - Placeholder radii 55504 S2003_J10 1 1 1 - Placeholder radii 55505 S2003_J12 1 1 1 - Placeholder radii 55506 S2003_J16 1 1 1 - Placeholder radii 55507 S2003_J23 1 1 1 - Placeholder radii 55508 S2003_J24 1 1 1 - Placeholder radii for the inner moons X = sub-planetary equatorial radius, Y = along orbit equatorial radius and Z = polar radius. In the case of the irregular moons, X = long equatorial radius, Y = short equatorial radius, and Z = polar radius. \begindata BODY501_RADII = ( 1829.4 1819.4 1815.7 ) BODY502_RADII = ( 1562.6 1560.3 1559.5 ) BODY503_RADII = ( 2631.2 2631.2 2631.2 ) BODY504_RADII = ( 2410.3 2410.3 2410.3 ) BODY505_RADII = ( 125 73 64 ) BODY506_RADII = ( 85 85 85 ) BODY507_RADII = ( 40 40 40 ) BODY508_RADII = ( 18 18 18 ) BODY509_RADII = ( 14 14 14 ) BODY510_RADII = ( 12 12 12 ) BODY511_RADII = ( 15 15 15 ) BODY512_RADII = ( 10 10 10 ) BODY513_RADII = ( 5 5 5 ) BODY514_RADII = ( 58 49 42 ) BODY515_RADII = ( 10 8 7 ) BODY516_RADII = ( 30 20 17 ) BODY517_RADII = ( 4 4 4 ) BODY518_RADII = ( 4 4 4 ) BODY519_RADII = ( 3 3 3 ) BODY520_RADII = ( 2 2 2 ) BODY521_RADII = ( 2 2 2 ) BODY522_RADII = ( 2 2 2 ) BODY523_RADII = ( 2 2 2 ) BODY524_RADII = ( 2 2 2 ) BODY525_RADII = ( 1 1 1 ) BODY526_RADII = ( 2 2 2 ) BODY527_RADII = ( 3 3 3 ) BODY528_RADII = ( 2 2 2 ) BODY529_RADII = ( 2 2 2 ) BODY530_RADII = ( 2 2 2 ) BODY531_RADII = ( 1 1 1 ) BODY532_RADII = ( 1 1 1 ) BODY533_RADII = ( 1 1 1 ) BODY534_RADII = ( 1 1 1 ) BODY535_RADII = ( 1 1 1 ) BODY536_RADII = ( 1 1 1 ) BODY537_RADII = ( 1 1 1 ) BODY538_RADII = ( 1 1 1 ) BODY539_RADII = ( 1 1 1 ) BODY540_RADII = ( 1 1 1 ) BODY541_RADII = ( 2 2 2 ) BODY542_RADII = ( 1 1 1 ) BODY543_RADII = ( 1 1 1 ) BODY544_RADII = ( 1 1 1 ) BODY545_RADII = ( 2 2 2 ) BODY546_RADII = ( 1 1 1 ) BODY547_RADII = ( 2 2 2 ) BODY548_RADII = ( 1 1 1 ) BODY549_RADII = ( 1 1 1 ) BODY550_RADII = ( 1 1 1 ) BODY551_RADII = ( 1 1 1 ) BODY552_RADII = ( 1 1 1 ) BODY553_RADII = ( 2 2 2 ) BODY554_RADII = ( 1 1 1 ) BODY555_RADII = ( 1 1 1 ) BODY556_RADII = ( 1 1 1 ) BODY557_RADII = ( 2 2 2 ) BODY558_RADII = ( 1 1 1 ) BODY559_RADII = ( 1 1 1 ) BODY560_RADII = ( 1 1 1 ) BODY561_RADII = ( 1 1 1 ) BODY562_RADII = ( 1 1 1 ) BODY563_RADII = ( 1 1 1 ) BODY564_RADII = ( 1 1 1 ) BODY565_RADII = ( 1 1 1 ) BODY566_RADII = ( 1 1 1 ) BODY567_RADII = ( 1 1 1 ) BODY568_RADII = ( 1 1 1 ) BODY569_RADII = ( 1 1 1 ) BODY570_RADII = ( 1 1 1 ) BODY571_RADII = ( 1 1 1 ) BODY572_RADII = ( 1 1 1 ) BODY55501_RADII = ( 1 1 1 ) BODY55502_RADII = ( 1 1 1 ) BODY55503_RADII = ( 1 1 1 ) BODY55504_RADII = ( 1 1 1 ) BODY55505_RADII = ( 1 1 1 ) BODY55506_RADII = ( 1 1 1 ) BODY55507_RADII = ( 1 1 1 ) BODY55508_RADII = ( 1 1 1 ) \begintext Jupiter Rings Model ----------------------------------------------------------------------------- The Jupiter rings are modelled from [8] as follows: R_i R_o Vertical Optical Ring Name (km) (km) Thickness (km) Depth ================= ====== ====== ============== ========= Halo 100000 122400 10000 ~10E-6 Main 122400 129100 100 <8E-6 Amalthea Gossamer 122400 181350 2600 ~5E-7 Thebe Gossamer 122400 221900 8800 ~10E-7 Thebe Extension 221900 270000 8800 ~10E-9 Ring Name SPICE Name SPICE ID ================= =================== ======== Halo Ring JUICE_JUP_HALO_RING -28941 Main Ring JUICE_JUP_MAIN_RING -28942 Amalthea Gossamer Ring JUICE_JUP_AMA_GOS_RING -28943 Thebe Gossamer Ring JUICE_JUP_THE_GOS_RING -28944 Thebe Extension Ring JUICE_JUP_THE_EXT_RING -28945 Equatorial view: ---------------- ~ - , ' , , _________ , | |___________________________________________ , | |________________ Amalthea | Thebe |Thebe Jupiter , | |==== Main Ring | Gossamer | Gossamer |Ext , | |----------------' Ring | Ring |Ring , | |------------------------------'------------' , '---------' , ' Halo Ring _ , ' The rings are identified by two keywords: BODYNNN_RADII = ( Ro, Ro, Z ) BODYNNN_RING = ( Ri, Ro, Z, OD ) Ring geometry is defined in the form of one set of Ri, Re, Z, OD where Ri and Re are inner and outer radii respectively of the ring (in kilometers), Z is the vertical height of the ring (also in km), and OD is the average optical depth of the ring across Ri to Re. There is a complementary ring body with the RADII keyword: JUICE_JUP_RING_BOUNDARY -28940 These ring definitions are useful to as an approximation of Jupiter rings for occultation ingress and egress times applications. These can be found using GFOCLT. For the purpose of such search, the ring boundaries can be approximated using two extremely flat spheroids, with their frame as defined in the juice_sci_vVV.tf frames kernel, both of which are aligned, as is Jupiter, with the IAU_JUPITER reference frame. The large and small spheroids have equatorial radii equal to, respectively, the radii of the outer and inner ring boundaries. The polar radii is set to the ring thickness Z. The JUICE_JUP_RING_BOUNDARY is precisely used by this purpose. Two searches using GFOCLT are required: the first search finds the time window when the occultation happens by the larger spheroid. The result window from that search can be used as the confinement window for the second search, which finds the time window when the occultations happens occulted by the inner spheroid. Subtracting the result window of the second search from that of the first yields a window representing the time period of the ring occultations. A more precise way to work with the rings for occultations and other purposes is to use the rings DSKs as defined in the juice_dsk_surfaces_vVV.tf frames kernel and in the corresponding DSK files: juice_jup_halo_ring_vVV.bds juice_jup_main_ring_vVV.bds juice_jup_ama_gos_ring_vVV.bds juice_jup_the_gos_ring_vVV.bds juice_jup_the_ext_ring_vVV.bds \begindata BODY-28940_RADII = ( 100000 100000 10000 ) BODY-28941_RADII = ( 122400 122400 10000 ) BODY-28941_RING = ( 100000 122400 10000 0.00001 ) BODY-28942_RADII = ( 129100 129100 100 ) BODY-28942_RING = ( 122400 129100 100 0.000008 ) BODY-28943_RADII = ( 181350 181350 2600 ) BODY-28943_RING = ( 122400 181350 2600 0.0000005 ) BODY-28944_RADII = ( 221900 221900 8800 ) BODY-28944_RING = ( 122400 221900 8800 0.000001 ) BODY-28945_RADII = ( 270000 270000 8800 ) BODY-28945_RING = ( 221900 270000 8800 0.00000001 ) \begintext End of PCK file.