The outer radiation belt injection, transport, acceleration and loss satellite (ORBITALS): A canadian small satellite mission for ILWS

I. R. Mann; K. G. Balmain; J. B. Blake; D. Boteler; S. Bourdarie; J. H. Clemmons; Z. C. Dent; A. W. Degeling; R. Fedosejeves; J. F. Fennell; B. J. Fraser; J. C. Green; V. K. Jordanova; A. Kale; L. M. Kistler; D. J. Knudsen; M. R. Lessard; T. M. Loto'aniu; D. K. Milling; T. P. O'Brien; T. G. Onsager; L. G. Ozeke; I. J. Rae; R. Rankin; G. D. Reeves; A. J. Ridley; G. J. Sofko; D. Summers; I. Thomson; R. M. Thorne; Y. Y. Tsui; C. Unick; D. Vassiliadis; J. R. Wygant; A. W. Yau

doi:10.1016/j.asr.2005.11.009

The outer radiation belt injection, transport, acceleration and loss satellite (ORBITALS): A canadian small satellite mission for ILWS

I. R. Mann, K. G. Balmain, J. B. Blake, D. Boteler, S. Bourdarie, J. H. Clemmons, Z. C. Dent, A. W. Degeling, R. Fedosejeves, J. F. Fennell, B. J. Fraser, J. C. Green, V. K. Jordanova, A. Kale, L. M. Kistler, D. J. Knudsen, M. R. Lessard, T. M. Loto'aniu, D. K. Milling, T. P. O'BrienT. G. Onsager, L. G. Ozeke, I. J. Rae, R. Rankin, G. D. Reeves, A. J. Ridley, G. J. Sofko, D. Summers, I. Thomson, R. M. Thorne, Y. Y. Tsui, C. Unick, D. Vassiliadis, J. R. Wygant, A. W. Yau

Physics and Astronomy (Twin Cities)

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Abstract

The outer radiation belt injection, transport, acceleration and loss satellite (ORBITALS) is a small satellite mission proposed as a Canadian contribution to the satellite infrastructure for the International Living With a Star (ILWS) program. The ORBITALS will monitor the energetic electron and ion populations in the inner magnetosphere across a wide range of energies (keV to tens of MeV) as well as the dynamic electric and magnetic fields, waves and cold plasma environment which govern the injection, transport, acceleration and loss of these energetic and space weather critical particle populations. ORBITALS will be launched around 2010-2012 into a low-inclination GTO-like orbit which maximizes the long-lasting apogee-pass conjunctions with both the ground-based instruments of the Canadian Geospace Monitoring (CGSM) array as well as with the GOES East and West and geosynchronous communications satellites in the North American sector. Specifically, the ORBITALS will make the measurements necessary to gain fundamental new understanding of the relative importance of different physical acceleration and loss processes which are hypothesised to shape the energetic particle populations in the inner magnetosphere. The ORBITALS will also provide the raw radiation measurements at MEO altitudes necessary for the development of the next-generation of radiation belt specification models, and on-board experiments will also monitor the dose, single-event upset, and deep-dielectric charging responses of electronic components on-orbit. In this paper we outline the scientific objectives of the ORBITALS mission, discuss how the ORBITALS will lead to solutions to outstanding questions in inner magnetospheric science, and examine how the ORBITALS will complement other proposed inner magnetosphere missions in the ILWS era.

Original language	English (US)
Pages (from-to)	1838-1860
Number of pages	23
Journal	Advances in Space Research
Volume	38
Issue number	8
DOIs	https://doi.org/10.1016/j.asr.2005.11.009
State	Published - 2006

Keywords

ILWS
Inner magnetosphere
Radiation belts
Satellite missions
ULF waves

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Mann, I. R., Balmain, K. G., Blake, J. B., Boteler, D., Bourdarie, S., Clemmons, J. H., Dent, Z. C., Degeling, A. W., Fedosejeves, R., Fennell, J. F., Fraser, B. J., Green, J. C., Jordanova, V. K., Kale, A., Kistler, L. M., Knudsen, D. J., Lessard, M. R., Loto'aniu, T. M., Milling, D. K., ... Yau, A. W. (2006). The outer radiation belt injection, transport, acceleration and loss satellite (ORBITALS): A canadian small satellite mission for ILWS. Advances in Space Research, 38(8), 1838-1860. https://doi.org/10.1016/j.asr.2005.11.009

Mann, IR, Balmain, KG, Blake, JB, Boteler, D, Bourdarie, S, Clemmons, JH, Dent, ZC, Degeling, AW, Fedosejeves, R, Fennell, JF, Fraser, BJ, Green, JC, Jordanova, VK, Kale, A, Kistler, LM, Knudsen, DJ, Lessard, MR, Loto'aniu, TM, Milling, DK, O'Brien, TP, Onsager, TG, Ozeke, LG, Rae, IJ, Rankin, R, Reeves, GD, Ridley, AJ, Sofko, GJ, Summers, D, Thomson, I, Thorne, RM, Tsui, YY, Unick, C, Vassiliadis, D, Wygant, JR & Yau, AW 2006, 'The outer radiation belt injection, transport, acceleration and loss satellite (ORBITALS): A canadian small satellite mission for ILWS', Advances in Space Research, vol. 38, no. 8, pp. 1838-1860. https://doi.org/10.1016/j.asr.2005.11.009

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title = "The outer radiation belt injection, transport, acceleration and loss satellite (ORBITALS): A canadian small satellite mission for ILWS",

abstract = "The outer radiation belt injection, transport, acceleration and loss satellite (ORBITALS) is a small satellite mission proposed as a Canadian contribution to the satellite infrastructure for the International Living With a Star (ILWS) program. The ORBITALS will monitor the energetic electron and ion populations in the inner magnetosphere across a wide range of energies (keV to tens of MeV) as well as the dynamic electric and magnetic fields, waves and cold plasma environment which govern the injection, transport, acceleration and loss of these energetic and space weather critical particle populations. ORBITALS will be launched around 2010-2012 into a low-inclination GTO-like orbit which maximizes the long-lasting apogee-pass conjunctions with both the ground-based instruments of the Canadian Geospace Monitoring (CGSM) array as well as with the GOES East and West and geosynchronous communications satellites in the North American sector. Specifically, the ORBITALS will make the measurements necessary to gain fundamental new understanding of the relative importance of different physical acceleration and loss processes which are hypothesised to shape the energetic particle populations in the inner magnetosphere. The ORBITALS will also provide the raw radiation measurements at MEO altitudes necessary for the development of the next-generation of radiation belt specification models, and on-board experiments will also monitor the dose, single-event upset, and deep-dielectric charging responses of electronic components on-orbit. In this paper we outline the scientific objectives of the ORBITALS mission, discuss how the ORBITALS will lead to solutions to outstanding questions in inner magnetospheric science, and examine how the ORBITALS will complement other proposed inner magnetosphere missions in the ILWS era.",

keywords = "ILWS, Inner magnetosphere, Radiation belts, Satellite missions, ULF waves",

author = "Mann, {I. R.} and Balmain, {K. G.} and Blake, {J. B.} and D. Boteler and S. Bourdarie and Clemmons, {J. H.} and Dent, {Z. C.} and Degeling, {A. W.} and R. Fedosejeves and Fennell, {J. F.} and Fraser, {B. J.} and Green, {J. C.} and Jordanova, {V. K.} and A. Kale and Kistler, {L. M.} and Knudsen, {D. J.} and Lessard, {M. R.} and Loto'aniu, {T. M.} and Milling, {D. K.} and O'Brien, {T. P.} and Onsager, {T. G.} and Ozeke, {L. G.} and Rae, {I. J.} and R. Rankin and Reeves, {G. D.} and Ridley, {A. J.} and Sofko, {G. J.} and D. Summers and I. Thomson and Thorne, {R. M.} and Tsui, {Y. Y.} and C. Unick and D. Vassiliadis and Wygant, {J. R.} and Yau, {A. W.}",

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T1 - The outer radiation belt injection, transport, acceleration and loss satellite (ORBITALS)

T2 - A canadian small satellite mission for ILWS

AU - Mann, I. R.

AU - Balmain, K. G.

AU - Blake, J. B.

AU - Boteler, D.

AU - Bourdarie, S.

AU - Clemmons, J. H.

AU - Dent, Z. C.

AU - Degeling, A. W.

AU - Fedosejeves, R.

AU - Fennell, J. F.

AU - Fraser, B. J.

AU - Green, J. C.

AU - Jordanova, V. K.

AU - Kale, A.

AU - Kistler, L. M.

AU - Knudsen, D. J.

AU - Lessard, M. R.

AU - Loto'aniu, T. M.

AU - Milling, D. K.

AU - O'Brien, T. P.

AU - Onsager, T. G.

AU - Ozeke, L. G.

AU - Rae, I. J.

AU - Rankin, R.

AU - Reeves, G. D.

AU - Ridley, A. J.

AU - Sofko, G. J.

AU - Summers, D.

AU - Thomson, I.

AU - Thorne, R. M.

AU - Tsui, Y. Y.

AU - Unick, C.

AU - Vassiliadis, D.

AU - Wygant, J. R.

AU - Yau, A. W.

PY - 2006

Y1 - 2006

N2 - The outer radiation belt injection, transport, acceleration and loss satellite (ORBITALS) is a small satellite mission proposed as a Canadian contribution to the satellite infrastructure for the International Living With a Star (ILWS) program. The ORBITALS will monitor the energetic electron and ion populations in the inner magnetosphere across a wide range of energies (keV to tens of MeV) as well as the dynamic electric and magnetic fields, waves and cold plasma environment which govern the injection, transport, acceleration and loss of these energetic and space weather critical particle populations. ORBITALS will be launched around 2010-2012 into a low-inclination GTO-like orbit which maximizes the long-lasting apogee-pass conjunctions with both the ground-based instruments of the Canadian Geospace Monitoring (CGSM) array as well as with the GOES East and West and geosynchronous communications satellites in the North American sector. Specifically, the ORBITALS will make the measurements necessary to gain fundamental new understanding of the relative importance of different physical acceleration and loss processes which are hypothesised to shape the energetic particle populations in the inner magnetosphere. The ORBITALS will also provide the raw radiation measurements at MEO altitudes necessary for the development of the next-generation of radiation belt specification models, and on-board experiments will also monitor the dose, single-event upset, and deep-dielectric charging responses of electronic components on-orbit. In this paper we outline the scientific objectives of the ORBITALS mission, discuss how the ORBITALS will lead to solutions to outstanding questions in inner magnetospheric science, and examine how the ORBITALS will complement other proposed inner magnetosphere missions in the ILWS era.

AB - The outer radiation belt injection, transport, acceleration and loss satellite (ORBITALS) is a small satellite mission proposed as a Canadian contribution to the satellite infrastructure for the International Living With a Star (ILWS) program. The ORBITALS will monitor the energetic electron and ion populations in the inner magnetosphere across a wide range of energies (keV to tens of MeV) as well as the dynamic electric and magnetic fields, waves and cold plasma environment which govern the injection, transport, acceleration and loss of these energetic and space weather critical particle populations. ORBITALS will be launched around 2010-2012 into a low-inclination GTO-like orbit which maximizes the long-lasting apogee-pass conjunctions with both the ground-based instruments of the Canadian Geospace Monitoring (CGSM) array as well as with the GOES East and West and geosynchronous communications satellites in the North American sector. Specifically, the ORBITALS will make the measurements necessary to gain fundamental new understanding of the relative importance of different physical acceleration and loss processes which are hypothesised to shape the energetic particle populations in the inner magnetosphere. The ORBITALS will also provide the raw radiation measurements at MEO altitudes necessary for the development of the next-generation of radiation belt specification models, and on-board experiments will also monitor the dose, single-event upset, and deep-dielectric charging responses of electronic components on-orbit. In this paper we outline the scientific objectives of the ORBITALS mission, discuss how the ORBITALS will lead to solutions to outstanding questions in inner magnetospheric science, and examine how the ORBITALS will complement other proposed inner magnetosphere missions in the ILWS era.

KW - ILWS

KW - Inner magnetosphere

KW - Radiation belts

KW - Satellite missions

KW - ULF waves

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JO - Advances in Space Research

JF - Advances in Space Research

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ER -

The outer radiation belt injection, transport, acceleration and loss satellite (ORBITALS): A canadian small satellite mission for ILWS

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