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RPC Meeting, Braunschweig Sept. 2010 Messung planetarer und interplanetarer Magnetfelder Sommersemester 2014 Lehrveranstaltung: 440.413 Dr. Konrad Schwingenschuh/ÖAW.

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Presentation on theme: "RPC Meeting, Braunschweig Sept. 2010 Messung planetarer und interplanetarer Magnetfelder Sommersemester 2014 Lehrveranstaltung: 440.413 Dr. Konrad Schwingenschuh/ÖAW."— Presentation transcript:

1 RPC Meeting, Braunschweig Sept. 2010 Messung planetarer und interplanetarer Magnetfelder Sommersemester 2014 Lehrveranstaltung: 440.413 Dr. Konrad Schwingenschuh/ÖAW Konrad.schwingenschuh@oeaw.ac.at 23. Mai 2014 bis 28. Mai 2014 Folien © Dr. Konrad Schwingenschuh

2 RPC Meeting, Braunschweig Sept. 2010 Globale elektrische Leitfähigkeit: Allgemeines Magn. Fluktuationen und Sprünge des interplanetaren Magnetfeldes werden durch die elektr. Leitfähigkeit von Himmelskörpern durch magn. Diffusion gedämpft. Die Bestimmung erfolgt mittels Orbiter- und Lander- Magnetometer. Die Abschätzung der Leitfähigkeit erfolgt durch die Relation Sigma = tau / (mu_0 * L^2) ; tau... char. Diffusionszeit [s]; L... Durchmesser des Himmelskörpers (char. Länge) Beispiel: Rosetta (Kometenkern), Galileo (mögliche Ozeane auf Jupitermonden Europa, Ganymede, Callisto), Mond (Apollo 12 und Explorer 35)

3 RPC Meeting, Braunschweig Sept. 2010 Global magnetic and electric properties of a cometary nucleus: ROSETTA combined orbiter and lander magnetic field experiment

4 RPC Meeting, Braunschweig Sept. 2010 4 Magnetic properties of asteroids and comets  - previous magnetic field investigations: § - Gaspra 1993 (magnetic moment?) § - NEAR@433EROS_2000 (no significant magnetic moment found) § - ROSETTA Steins 2008 (no evidence for magnetization found) § -ROSETTA-Lutetia 2010 (no evidence for an intrinsic field)  - magnetized dust & accretional remanence: § - Nüboldt 2000 § -Weiss2012  - ROSETTA 2014: remanent magnetization in the solar nebula

5 RPC Meeting, Braunschweig Sept. 2010 Global electrical conductivity  - dual point magnetic field and global electrical conductivity [Dyal 1973]  - electromagnetic induction in the cometary nucleus  - study of time varying interplanetary magnetic field (Constantinescu 2012)  References § 1. Dyal, P. and W.P. Curtis, Global Electromagnetic Induction in the Moon and Planets, Physics of the Earth and Planetary Interior, 7 (1973) 251-265 § 2. Constantinescu-et al.-2012, PSS-On the possibility to determine the electrical conductivity of 67PCG from ROSETTA magnetic field observations

6 RPC Meeting, Braunschweig Sept. 2010 Combined measurement of ROMAP and RPC Before descent During descent After descent

7 RPC Meeting, Braunschweig Sept. 2010 7 ROMAP – Reminder!  Magnetometer 2000nT range, 0.05nT resolution, 64Hz  Pressure Sensors Pirani: 10 -3 –10 mbar Penning: 10 -8 –10 -4 mbar  Electrostatic Analyzer ions: 40...8000eV; electrons: 0.3...4200eV  Faraday Cup resolution 5x10 -12 – 4x10 -10

8 RPC Meeting, Braunschweig Sept. 2010 Descent Operation  Why magnetic properties of a comet are interesting  Magnetization of processed and non-processed material is very different  Known examples are Meteorites and Asteroids  Magnetization could explain gap in planetary formation (10 -3 … 10 1 m) Determination of magnetic properties of CG Aubrite (non processed) ALHA 78 113 Magnetization: 2.8mAm²/kg Diogenite (processed) MIL 07 001 Magnetization: 0.05mAm²/kg

9 RPC Meeting, Braunschweig Sept. 2010 Descent Operation  Why characterization can be done during descent only  Direct measurements of magnetization can be done at different distances  Drop off profile gives information about homogeneity  magnetic field on surface is proportional to NRM Determination of magnetic properties of CG Assumptions: Diameter: 5km Density:1.0g/cm3 NRM:0.1mAm 2 /kg a - c:aligned dipoles d – e:randomly distributed No. of dipoles: 1 10 3 10 6 10 3 10 6 B vs. altitude

10 RPC Meeting, Braunschweig Sept. 2010 FSS / LTS Onset & evolution of s/w interaction  Measurement Scenario  switching on time: 4 hours centered about noon  Optional (LTS): 8 hours including night  ROMAP in Surface Mode  Constraints  No common operation with “magnetic active” experiments  Favored measurement partners: Concert, Civa, Rolis, Sesame, Mupus  Operation of RPC MAG mandatory  Resources  Operation time: 4 hours (MAG & SPM)  Power consumption: 4 Watt  Data volume: 60 kbyte/hour

11 RPC Meeting, Braunschweig Sept. 2010 LTS Combined E- and B-field & P-measurement  Conductivity investigation using variation analysis  Variation of B field (ROMAP/RPC) and E field (SESAME) shall be used to investigate global conductivity  High resolution data (64Hz) necessary, previous measurement helpful for planning effective operation  Lander Day and Night pressure measurement  Promises high scientific return about outgassing behavior  Uncertainty: Penning functionality

12 RPC Meeting, Braunschweig Sept. 2010 Summary  Prior Separation (ICEP)  ROMAP supports RPC MAG measurements to separate s/c interferences  During Descent (SDL)  RPC-MAG supports ROMAP measurement to separate temporal variations from CG signature  On Surface (FSS and LTS)  Combined measurement of RPC and ROMAP to separate local and temporal field variation And determine the global electrical conductivity  Magnetized dust and accretional magnetism

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