CMR Header

CCMC Metadata Registry (CMR)

Menu Page

Go to:

CMR: View Simulation Run Info

NAIRAS/3.0/ROR/JINHYEON_KIM_022723_IT_7

Run Description

CCMC ROR run for NAIRAS 3.0 with RORID JINHYEON_KIM_022723_IT_7

Simulation Time:

Simulation Start Time: 2019-12-01T00:00:00Z
Simulation End Time: 2019-12-01T06:07:00Z
Time Step in second:
Simulation Time Description:
Simulation Time Caveats:

Temporal Dependence (whether the outputs of the simulation code are time-dependent?): true

Regions:

Earth.Magnetosphere
Earth.NearSurface.Atmosphere
Earth.NearSurface.SouthAtlanticAnomalyRegion
Heliosphere.NearEarth

Simulation Domain :

Contacts :

JINHYEON.KIM, ModelUser

List of Run Input Parameter Grouping and their associated properties :

Name Description Caveats Properties
Trajectory based
Instantaneous, time integrated quantities (fluence), integral LET flux, along a user-specified trajectory
There is a time limit. Otherwise, it would take too long.
Name Description Caveats Units Default Value or Actual Value Valid Min Valid Max
User-provided trajectory file
trajectory file with the required format
DOS_TRAJ_PTS
Instantaneous dose quantities (at a point along the trajectory). 

Effective Dose: related to whole-body biological risk. In most cases, this is strictly a calculated quantity. 

Ambient Dose Equivalent: An operational proxy for Effective Dose defined by ICRP. This is a measurable quantity.

Tissue Equivalent:  A quantity related to tissue biological risk and defined by ICRP.  This is a measurable quantity.

Absorbed Dose in Tissue: The measure of energy per unit mass deposited by ionizing radiation in tissue. This is a measurable quantity.

Absorbed Dose in Silicon: This is a measurable quantity. 

If selected, the instantaneous dose quantities will be provided as output.
 
Value of 1 indicates the product is selected, 0 - not selected.
1
DOS_TIME_INTEGRATED
Dose quantities integrated over a period of time.

Value of 1 indicates the product is selected, 0 - not selected.
1
GCR_INT_LET_FLUX
If selected, Integral GCR LET flux will be provided as output.

Value of 1 indicates the product is selected, otherwise 0.
0
GCR_INT_LET_FLUENCE
If selected, the GCR integral LET fluence (fluence above certain LET values) will be provided.

Value of 1 indicates the product is selected, 0 - not selected.
0
TRP_INT_FLUX
Trapped integral proton flux will be provided as (part of) the model outputs if selected.

Value of 1 indicates the product is selected, 0 - not selected.
0
TRP_INT_FLUENCE
Trapped integral proton fluence will be provided as (part of) the outputs.

Value of 1 indicates the product is selected, 0 - not selected.
0
SEP_INT_FLUX
If selected, SEP integral proton flux will be provided.

Value of 1 indicates the product is selected, 0 - not selected.
0
SEP_INT_FLUENCE
If selected, SEP integral proton fluences will be provided.

Value of 1 indicates the product is selected, 0 - not selected.
0
GCR_DIFF_LET_FLUX
If selected, GCR differential LET flux will be provided.

Value of 1 indicates the product is selected, 0 - not selected.
0
GCR_DIFF_LET_FLUENCE
If selected, GCR differential LET fluence will be provided.

Value of 1 indicates the product is selected, 0 - not selected.
0
TRP_DIFF_FLUX
If selected, trapped proton differential flux will be provided.

Value of 1 indicates the product is selected, 0 - not selected.
0
TRP_DIFF_FLUENCE
If selected, trapped proton differential fluence will be provided.

Value of 1 indicates the product is selected, 0 - not selected.
0
SEP_DIFF_FLUX
If selected, SEP proton differential flux will be provided.

Value of 1 indicates the product is selected, 0 - not selected.
0
SEP_DIFF_FLUENCE
If selected, SEP proton differential fluence will be provided.

Value of 1 indicates the product is selected, 0 - not selected.
0
LET_bounds
GCR LET lower bound selection. Suggested value: >1 MeV-cm^2/mg, >8 MeV-cm^2/mg). Rationale: these values are used by NASA KSC/Space-X to assess spacecraft single-event effects.
5.0e-4 MeV-cm^2/mg 43.0 MeV-cm^2/mg
TIPE_channels
Lower Bounds of Trapped Integral Proton Energy Channels	in MeV. Suggested values of energy channels (>MeV): 45.0, 70.0, 75.0, 83.0, 86.0, 90.0, 93.0, 96.0, 100.0, 104.0, 110.0, 115.0, 124.0, 128.0, 132.0, 135.0, 140.0, 146.0, 149.0, 154.0, 162.0, 168.0, 172.0, 178.0, 182.0. Rationale: these values are used by NASA KSC/Space-X to assess spacecraft single-event effects.
MeV 0.01 1750.
SIPE_channels
Lower Bounds of SEP Integral Proton Energy Channels in MeV. Suggested values of energy channels (>MeV): 30.0, 35.0, 45.0, 50.0, 55.0, 60.0, 65.0, 70.0, 75.0, 80.0, 85.0, 90.0, 95.0, 100.0, 105.0, 110.0, 115.0, 120.0, 125.0, 130.0, 135.0, 140.0, 145.0, 150.0, 155.0, 160.0, 165.0, 170.0, 175.0, 180.0, 185.0. Rationale: these values are used by NASA KSC/Space-X to assess spacecraft single-event effects.
MeV 0.01 1.0e6
sd_units_dosimetric
Unit of shielding depth for dosimetric quantities: g/cm2, cm, or mils.
gcm2
sd_values_dosimetric
Shielding depths.

Suggested value is 0,4,50 g/cm^2, where 0 g/cm^2 corresponds to no shielding, 4 g/cm^2 corresponds to an aircraft / spacecraft shielding, and 50 g/cm^2 corresponds to median shielding environment for ISS dosimeter locations.
0,4,50 0 g/cm^2 100 g/cm^2
sd_values_fluence
Comma-separated values of lower bounds for differential and integrated quantities.

Suggested value is 0,4,50 g/cm^2, where 0 g/cm^2 corresponds to no shielding, 4 g/cm^2 corresponds to an aircraft / spacecraft shielding, and 50 g/cm^2 corresponds to median shielding environment for ISS dosimeter locations.
0 g/cm^2 100 g/cm^2
sd_units_fluence
Unit of shielding depth for differential and integral flux and fluence quantities: g/cm2, cm, or mils.
GLOBAL_CALCULATION
Global products
Name Description Caveats Units Default Value or Actual Value Valid Min Valid Max
GLOBAL_CALCULATION
If selected, the user will be provided with all global products: 1. Global maps of different types of doses at different altitudes, 2. Dose quantities along some given flight paths, 3. Cutoff rigidity map.


Value of 1 indicates the product group is selected, 0 - not selected.
0
b_field_model
Choice of magnetic field model. Option to select either the TS05, T89, or IGRF magnetospheric magnetic field model. The 'Best Available' option selects TS05 model from 1995 and on, T89 between 1932 and 1994, and IGRF otherwise.
TS05 model is available 1995-present only. BEST

Run Access Information :

Keyword(s) :

DEL-ICN

Linked to Parent Spase Resource(s) (example: SimulationModel) :

spase://CCMC/SimulationModel/NAIRAS/3.0

List of Publications Referencing this Run :

CMR Footer

Curator: Chiu Wiegand | NASA Official: Dr. Masha Kuznetsova | Privacy and Security Notices | Accessibility | CCMC Data Collection Consent Agreement