John W. Norbury scite author profile

Most accelerator-based space radiation experiments have been performed with single ion beams at fixed energies. However, the space radiation environment consists of a wide variety of ion species with a continuous range of energies. Due to recent developments in beam switching technology implemented at the NASA Space Radiation Laboratory (NSRL) at Brookhaven National Laboratory (BNL), it is now possible to rapidly switch ion species and energies, allowing for the possibility to more realistically simulate the actual radiation environment found in space. The present paper discusses a variety of issues related to implementation of galactic cosmic ray (GCR) simulation at NSRL, especially for experiments in radiobiology. Advantages and disadvantages of different approaches to developing a GCR simulator are presented. In addition, issues common to both GCR simulation and single beam experiments are compared to issues unique to GCR simulation studies. A set of conclusions is presented as well as a discussion of the technical implementation of GCR simulation.

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OLTARIS: On-line tool for the assessment of radiation in space

Singleterry

Blattnig

Clowdsley

et al. 2011

Acta Astronautica

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The effects of ionizing radiation on humans in space is a major technical challenge for exploration to the moon and beyond. The radiation shielding team at NASA Langley Research Center has been working for over 30 years to develop techniques that can efficiently assist the engineer throughout the entire design process. OLTARIS: On-Line Tool for the Assessment of Radiation in Space is a new NASA website (http://oltaris.larc.nasa.gov) that allows engineers and physicists to access a variety of tools and models to study the effects of ionizing space radiation on humans and shielding materials. The site is intended to be an analysis and design tool for those working radiation issues for current and future manned missions, as well as a research tool for developing advanced material and shielding concepts. The site, along with the analysis tools and models within, have been developed using strict software practices to ensure reliable and reproducible results in a production environment. They have also been developed as a modular system so that models and algorithms can be easily added or updated. Vehicle Thickness DistributionEnvironmental Model

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Review of Nuclear Physics Experimental Data for Space Radiation

Norbury

Miller²

2012

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Reference field specification and preliminary beam selection strategy for accelerator-based GCR simulation

Slaba

Blattnig

Norbury

et al. 2016

Life Sciences in Space Research

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Nuclear data for space radiation

Norbury

Miller

Adamczyk

et al. 2012

Radiation Measurements

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Comparison of the transport codes HZETRN, HETC and FLUKA for a solar particle event

Heinbockel

Slaba

Blattnig

et al. 2011

Advances in Space Research

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Solar particle event storm shelter requirements for missions beyond low Earth orbit

Townsend

Adams

Blattnig

et al. 2018

Life Sciences in Space Research

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Heavy ion contributions to organ dose equivalent for the 1977 galactic cosmic ray spectrum

Walker

Townsend

Norbury

2013

Advances in Space Research

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John W. Norbury

Galactic cosmic ray simulation at the NASA Space Radiation Laboratory

OLTARIS: On-line tool for the assessment of radiation in space

Review of Nuclear Physics Experimental Data for Space Radiation

Reference field specification and preliminary beam selection strategy for accelerator-based GCR simulation

Nuclear data for space radiation

Comparison of the transport codes HZETRN, HETC and FLUKA for a solar particle event

Solar particle event storm shelter requirements for missions beyond low Earth orbit

Heavy ion contributions to organ dose equivalent for the 1977 galactic cosmic ray spectrum

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