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Radiation exposure and mission strategies for interplanetary manned missions and interplanetary habitats
Piero SpillantiniUniv. and INFN, Firenze, Italy
Fourteenth Lomonosov Conference on Elementary Particle Physics,Moscow, August 19-25, 2009
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10-4 10-3 10-2 10-1 1 101 102 103 104
15
12
9
6
3
0
-3
-6
Log
inte
nsity
(p/ c
m2
srs M
eV)
Kinetic Energy (MeV)
Solar Wind(flux=1016fluxGCR)
SCR(fluxmax=106fluxGCR )
(ACR)GCR
Spectra of energetic c.rays (indicative)
Sporadic, unpredictable
Penetrating SS from outside≈ constant flux
Dangerous
Mainly protons
Comparison purpose
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We are protected from GCR by:
At 1 AU (Earth orbit) by solar magnetic field (solar wind)
Near the Earth (about 10 REarth
) by terrestrial magnetic field
On the Earth surface by the Earth atmosphere
10-1 @ 1GeV10-2 @ 500 MeV
10-1 @ 1GeVAt 45º latitude
a further 10-2 @ all latitudes
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Energy (Gev/nucleon)
x 10-1
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Outside of the atmosphere
Top of the atmosphere(ballooning ≈ 40 km)(ballooning ≈ 25 km)
4 km on the sea level
≈1 G
eV(b
ulk)
10 km on the sea level
≈1 Z
eV
≈1 E
eV
≈1 P
eV
≈1 T
eV Energy of the primary CR(90% p, 9% Nuclei, <1% e,γ)
bulk
Showers of CR in the atmosphere
(x10-6
of bulk)
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103
102
101
1200 400 600 800 1000depth through atmosphere gr/cm2
soft (≈e)
hard (≈μ)
π
n
soft n
soft p
primary (≈p)
1015 4
parti
cles
/(m2
s sr
)
2720
Km above the sea level
≈ x 10-2
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Shielding in space is problematic:
Passive shielding (absorbers)enough for SCR (but huge masses needed)GCR very penetratingabsorbers inefficient (secondary production)
Active systems are necessary for long duration manned missions
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60s 90s several ideas were considered, no technical projects(mainly in USA)(URSS: some work on superconductivity in space).
(1985-90 two feasibility study of the ASTROMAG facilityfor CR on board of the Freedom SS.)
Active protection from CR: historical introduction
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2002-2004 ESA international Topical Team on “Shielding from the cosmic radiation for interplanetary missions: active and passive methods”
2000 review of available techniques and optimization of the working point for superconducting magnets for space applications (INFN-Milan (L.Rossi and L.Imbasciati))
2003-2004 WP “Review and development of active shielding concepts” of the contract REMSIM (Radiation Exposure and Mission Strategies for Interpl. Manned Missions) ESA-Alenia (+EADS Astrium, REM, RxTec, INFN).
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B=0 inside
B ∝1/R
B=0 outside
B=0 outside
B
R
electric currentelectric current
R1 R2
R1 R2
Continuous cilindrical conductor
Lumped conductors
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'Shelter' (Φ=2m, length 3m):shield masses for H20 & Toroid
1
10
100
0 100 200 300 400 500 600 700 800K.E. cut [MeV]
mas
s [t]
H2OToroid R2=3m cold massToroid R2=3m envisaged total massToroid R2=3m maximum total mass
6m2mshelter
Hp:NbSn sc cable Al sabilizedsc cable current ≤500 A/mm2CFSM (cryocoolers)
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Fig.6.14 - Toroidal shelter (∅ 2m, length 3m) integrated in the habitat scheme of the AURORA CDF concept. At the outer diameter the electric current can be supposed to be returned by a few conductors.
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'Habitat' (Φ=4m, length 5m): H2O & Toroid shield masses
1
10
100
0 200 400 600 800 1000K.E. cut [MeV]
mas
s [t]
H2O shieldToroid R2=4m cold massToroid R2=4m envisaged total mass
8m4mhabitat
Hp:NbSn sc cable Al sabilizedsc cable current ≤500 A/mm2CFSM (cryocoolers)
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The studies of the past must be updated for several reasons:
Future missions will be more and more addressed to the use of space as a ‘forth dimension’,
such as a collective property for implementing services of economical and social benefit
involving more and more private investments,with the Space agencies supplying the needed technical competences, quaranties and controls
in conformity with the political indications of the respective governments
Remarkable technical developments of high temperature superconductors (in particular MgB2 material) andof the cooling technique (cryocoolers for the N2 shielding of AMS-2)
Realization and operation of huge volume and stored energy superconducting magnets for
elementary particle physics experiments
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First instances of space tourism
Signals in this direction:
Successes of the SpaceShipTwo private spacecraft
Sudies for the use of Moon for extraction of useful materials (e.g.He3)
Studies for the ‘production’ of large quantity of water on the Moon
‘MoonBase’ initiative activities
Awareness of the importance of using the Lagrange points forachieving scientific results and for supporting commercial activities
(e.g L1 for Moon, and Space Highways for transfer of materials)
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Expected evolution of human presence in space:
Space Stations astronauts
Space bases astronauts and specialized personnel
Space ‘complexes’ astronauts, specialized personnel and common citizens
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further step in GCR protection:
Long permanence in ‘deep’ spacenot only
for a relatively small number of astronauts but also
for citizens conducting ‘normal’ activities
Minimum basic assumptions for the ‘habitat’:
Volume to be protected: Ǿ ≥6m, L=10mShroud of the transportation system: Ǿ 10m, L>16m
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i
i
i
i
L≈16÷20m
R1=
3m
⊕
⊗
B
B
R2=
5m
longitudinal section
Shieldedvolume
Transverse section
Shielded volume
RRRBRB 11)()( ∗
=
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p flux with H2O and toroidal cuts
0
0,5
1
1,5
2
2,5
10 100 1000 10000KE cut [MeV]
flux
[p/(m
2srs
MeV
)]
no cutcut 90 MeVtoroid 'Ecut=90 MeV' GCR:
dose reductionbetween
absorber cut and toroid cut
28%
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galactic proton flux in the 'habitat' (R1=3m, R2=5m)
0
0,5
1
1,5
2
2,5
10 100 1000 10000KE [MeV]
flux
[p/(c
m2s
rsM
eV)]
R1=3m R2=5m B1=0T R1=3m R2=5m B1=1TR1=3m R2=5m B1=2T R1=3m R2=5m B1=4TR1=3m R2=5m B1=6T R1=3m R2=5m B1=8TR1=3m R2=5m B1=10T
10m6mhabitat
15% 34% 59% 85%75%80%
GCR dose (Gy) reduction
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Ideal cable
MgB2 ≈ 20 %
Al ≈ 55 %
Ti ≈ 25 %
Characteristic Value
Averaged density 2,96 g/cm3
Diameter of the cable 200 μmSection of MgB2 6,28·10-3 mm2
Operation temperature 20 KCritical current at 2 T 1,3·103
A/mm2
Technological criteria
- Cryogen Free Superconducting Magnet - cryocoolers
-‘ideal cable’ for space applications (Turin university + Alenia)thin MgB2 cable produced by the in-situ method in a titanium sheathstabilized outside in aluminum:
- Medium operating temperature (20k)
- Low density (3 g/cm3)
- Small section: cables less sufferingcurrent and temperature instability,and distributing current in thesurrounding cables in case of badfunctioning.
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mass for R1=3m
1
10
100
0 2 4 6 8 10 12B(R1) (T)
mas
s (t)
<B>*L=6,1 Tm dose red 0.59<B>*L=12.5 Tm dose red 0.82<B>*L=20,3 Tm dose red 0.87
R2=5m6m7m8m10m
Cold mass for current density in sc cable 1kA/mm2 @ 2T
Cold Mass=62 t35 t24 t19 t14 t
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Minimum basic assumptions for the ‘habitat’:
Volume to be protected: Ǿ ≥6m, L=10mShroud of the transportation system: Ǿ 10m, L>16m
However: deployment of return current circuit must be consideredfrom the very beginning
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closed configuration
deployed configuration
Ǿ 10mǾ 6m
L=10
mǾ 6mǾ >>10m
L=10
m
shroud
habitat
habitathabitat
habitat habitat
Inner conductor
Inner conductorouter conductorouter conductors
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B=0 inside
B ∝1/R
B=0 inside
B ∝1/R
a) b)
electric current
retu
rn o
f the
ele
ctri
c cu
rren
t
retu
rn o
f the
ele
ctri
c cu
rren
t
- in a toroidal configuration the field diminishes at the increasing of the radius, making easier to support the ponderomotive forces.
- the outer part of the system must be deployed or assembled in space.
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Basic philosophy for the ‘Space Complex’:
All the modules linked to the protected ‘habitat’Protected ‘habitat’ can be reached in a few minutes
from any point of the Space Complex‘Habitat’ fully protected from SCR’s.‘Habitat’ guaranties a factor 5 reduction of GCR dose @ solar minimum
Furthermore:
Journeys during periods of maximum solar activity
Long permanences (>1 year) during periods of maximum solar activity
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Cross section ofthe habitat
protected againstSCR and GCR
Units protected onlyagainst SCR events
Communication tunnels
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Sheltersagainst SCR events
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Furthermore protection from CR is
- a ‘niche’ where physicists can contribute - an occasion of collaboration between labs and space agencies- new technologies to be developped for space propulsion
(magnetic lenses to control divergence and density of chargedmaterial for real-time control of thrust and direction,to concentrate it in small volume for further acceleration, magnetic bottle for suitable reactions, etc..)
Conclusions
An adequate protection from GCR to a large human community in space is a complex problem, which can be solved in an adequate time provided that a long program of study and R&D will be set up
in due time and with the due resources.
It is therefore urgent a professional approach toward the study,project, realization and test of materials, mechanisms, systems,
and finally ‘space demonstrators’, and their integration in manned exploration programs.