ESA & CNES Final Presentations : Space Environments and Radiation Effects on EEE components

Session

Space Environments and Effects

6 Mar 2017, 09:45

Newton2 (ESA/ESTEC)

14. Introduction & Executive summary

Dr Veronique Ferlet-Cavrois (ESA)

06/03/2017, 09:45

16. ESABASE2: Overview, Maintenance and Distribution Summary and Recent Developments

Dr Karl Dietrich Bunte (etamax space GmbH)

06/03/2017, 10:30

17. Space debris from spacecraft degradation products

Dr Paulo Gordo (FCUL)

06/03/2017, 11:40

19. Multi-Needle Langmuir Probe (M-NLP) development

Tore André Bekkeng (EIDEL)

06/03/2017, 12:20

63. In-flight data from POLAR

Dr Hualin Xiao (PSI)

06/03/2017, 12:40

20. Dust electrostatic charging, transport and contamination model for Lunar Lander and human exploration missions

Mr Benjamin RUARD (Artenum)

06/03/2017, 14:00

21. Numerical simulations of Solar Orbiter at its perihelion: spacecraft charging, effects on RPW and SWA-EAS instruments

Dr Stanislas Guillemant (LESIA)

06/03/2017, 14:30

23. ODI databases maintenance

Dr Daniel Heynderickx (DH Consultancy BVBA)

06/03/2017, 15:00

Upgrade of Open Data Interface (ODI) D. Heynderickx, DH Consultancy, Leuven, Belgium P. Wintoft, Solar Analytics, SE H. Evans, ESA/ESTEC, Noordwijk, The Netherlands ODI is a MySQL database framework developed for streamlined ingestion and storage of time series of spacecraft and ground based data. The latest upgrades of the framework consist of: - functionality for ingesting netCDF data...

27. PAMELA Data Exploitation

Dr Alessandro Bruno (Università degli Studi di Bari, Italy)

06/03/2017, 16:00

62. Two new ESA projects for radiation belt modelling

Dr Daniel Heynderickx (DH Consultancy BVBA)

06/03/2017, 17:00

New ESA Projects of Radiation Belt Modelling D. Heynderickx, DH Consultancy, Leuven, Belgium F. Lei, RadMod Research, Camberley, UK I. Sandberg, IASA & SPARC, Athens, Greece I. Daglis, IASA, Athens, Greece M. Cyamukungu, CSR/UCL, Belgium E. de Donder, BIRA-IASB, Belgium P. Truscott, Kallisto Consultancy, Farnborough, UK H. Evans, P. Jiggens, D. Rodgers, ESA/ESTEC, Noordwijk, The...

28. SSA programme update

Mr Juha-Pekka Luntama (ESA)

07/03/2017, 09:30

29. SSA Space Weather Elements Radiation Expert Service Centre overview and coordination with TEC Space Environments and Effects activities

Dr Alexi Glover (ESA)

07/03/2017, 09:50

31. Non-Ionsing Energy Loss (NIEL) calculation software and verification

Dr Pier Giorgio Rancoita (INFN sez. di Milano Bicocca)

07/03/2017, 10:10

43. High LET radiation effects on DNA in water

Dr Christian Schwarz (ESA)

07/03/2017, 10:30

33. Recent vulnerability and hardening studies of optical systems, fibers and fiber sensors at high radiation doses

Sylvain Girard

07/03/2017, 11:20

65. CNES Introduction

Mrs Françoise BEZERRA (CNES), Mr Robert ECOFFET (CNES)

07/03/2017, 12:00

53. Results from the ICARE-NG detectors onboard SAC-D, JASON 2 and JASON 3 satellites

Dr Vincent Maget (ONERA)

07/03/2017, 12:15

15 years ago, CNES and ONERA developed a low mass and low power solid state detector named ICARE-NG. This monitor has been flying on the SAC-D and JASON 2 satellites and is currently monitoring the Earth radiation belts onboard JASON-3 spacecraft. We review here the benefits of such a detector (much simpler than a scientific one) providing multi-spacecraft measurements in Low Earth Orbit. In...

54. Highly energetic electrons in the inner zone

Dr Vincent Maget (ONERA)

07/03/2017, 12:50

The existence of high energy (E>1MeV) electrons in the inner zone is always a debate issue. We tried with several clues to solve the problem they arise. First, using NOAA measurements and in particular a proton channel contaminated by E>1.2MeV electrons, the slot filling was studied over solar cycles. Then the found profiles were compared to the CRRES and SAMPEX measurements. Finally, using a...

55. Impact of the consideration of the LEO trapped proton anisotropy on dose calculation at component level

Dr Athina Varotsou (TRAD)

07/03/2017, 14:00

Trapped proton fluxes are anisotropic at Low Earth Orbits (LEO). However, this characteristic is not taken into account in the radiation environment specification of space missions. The goal of the study was to show if such a consideration has an impact on the radiation analysis results. The proton anisotropy was considered and doses were calculated at component level taking into account the...

56. A New Proton Model for Low Altitude High Energy Specification (OPAL)

Mrs Angélica SICARD-PIET (ONERA)

07/03/2017, 14:20

A model of high energy protons for low altitude (below 800 km) mission specification has been developed at ONERA. This model is based on the long duration NOAA measurement series. We used only the highest omnidirectional channel from SEM on board the old NOAA satellites, and the corresponding channel from SEM-2 on board the new NOAA ones, as the other channels are...

57. A new Global Radiation Earth Environement (GREEN) model

Mrs Angélica SICARD-PIET (ONERA)

07/03/2017, 14:40

The well known AP8 and AE8 NASA models are commonly used in the industry to specify the radiation belt environment. Unfortunately, there are some limitations in the use of these models, first due to the covered energy range, but also because in some regions of space, there are discrepancies between the predicted average values and the measurements. Therefore, a new model has been developped at...

58. Impact of the consideration of AE9/AP9 models on the space radiation environment specification

Dr Athina Varotsou (TRAD)

07/03/2017, 15:30

AE9/AP9 radiation belt models were developed to substitute the commonly used AE8/AP8 models for trapped particles. This study explored the impact of the integration of these new models into environment specifications. Multiple mission types were considered such as LEO, MEO and electrical orbital rising trajectories. Dose and displacement damage calculations were performed using FASTRAD® and...

59. Benchmarking Ionising Space Environment models

Dr Sebastien Bourdarie (ONERA)

07/03/2017, 15:50

In flight feedback data are collected such as displacement damage doses, ionizing doses, cumulated SEUs, and DSNU on Star Tracker on board various space vehicles and are compared to predictions performed with (1) proton measurements performed with spectrometers data on board the same spacecraft if any and (2) protons spectrum predicted by the legacy AP8min model and the AP9 and OPAL models....

64. Data assimilation technique applied to electron Earth radiation belts

Dr Sebastien Bourdarie (ONERA)

07/03/2017, 16:25

An Ensemble Kalman filter combined with the Salammbô 3D tool has been used to produce a re-analysis data base of the electron radiation belt from September 2012 to end of 2015. RBSP-A&B/MagEis data, GOES-13/MagEd and GOES-13/SEM data were ingested by the system. So far only omni-directional fluxes have been considered in this study. The time resolution of the re-analysis data base is 10...

60. Impact of the mission definition parameters on the space radiation environment specification

Dr Athina Varotsou (TRAD)

07/03/2017, 16:45

For the definition of the space radiation environment, missions are usually defined with a standard number of orbits and number of points per orbit. It has been shown that the modification of these parameters can induce differences on the results. The purpose of this study was to determine the impact of the definition of the mission parameters on the fluxes of particles but also on the...

61. OMERE space radiation environment and effects tool: new developments and new interface

Dr Athina Varotsou (TRAD)

07/03/2017, 17:05

OMERE is a freely distributed tool allowing to perform radiation environment and effects calculations (TID, TNID, SEE) for space missions. OMERE is developed by the engineering department of TRAD with the support from the CNES and it is used by engineers from the private and public sector all over world. The new developments and new interface of the latest OMERE version will be presented.