Gas enhanced PFIB surface preparation enabled metrology and statistical analysis of 3D NAND devices

Abstract-We describe a physics simulation software framework, MAGE, that is based on the GEANT4 simulation toolkit. MAGE is used to simulate the response of ultra-low radioactive background radiation detectors to ionizing radiation, specifically the MAJORANA and GERDA neutrinoless double-beta decay experiments. MAJORANA and GERDA use high-purity germanium detectors to search for the neutrinoless double-beta decay of 76 Ge, and MAGE is jointly developed between these two collaborations. The MAGE framework contains the geometry models of common objects, prototypes, test stands, and the actual experiments. It also implements customized event generators, GEANT4 physics lists, and output formats. All of these features are available as class libraries that are typically compiled into a single executable. The user selects the particular experimental setup implementation at run-time via macros. The combination of all these common classes into one framework reduces duplication of efforts, eases comparison between simulated data and experiment, and simplifies the addition of new detectors to be simulated. This paper focuses on the software framework, custom event generators, and physics lists.

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Hydraulic stimulation and fluid circulation experiments in underground laboratories: Stepping up the scale towards engineered geothermal systems

Gischig

Giardini

Amann

et al. 2020

Geomechanics for Energy and the Environment

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The majorana neutrinoless double-beta decay experiment

et al. 2004

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The proposed Majorana double-beta decay experiment is based on an array of segmented intrinsic Ge detectors with a total mass of 500 kg of Ge isotopically enriched to 86% in 76 Ge. A discussion is given of background reduction by: material selection, detector segmentation, pulse shape analysis, and electro-formation of copper parts and granularity. Predictions of the experimental sensitivity are given. For an experimental running time of 10 years over the construction and operation of Majorana, a sensitivity of T 1/ 2 0 ~4 10 27 y is predicted. This corresponds to m ~0.03 0.04 eV according to recent QRPA and RQRPA matrix element calculations.

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The proposed Majorana 76Ge double-beta decay experiment

Aalseth

Anderson

Arthur

et al. 2005

Nuclear Physics B - Proceedings Supplements

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Fission fragment isomers populated viaLi6+Th232

et al. 2010

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MaGe: a Monte Carlo framework for the Gerda and Majorana double beta decay experiments

Bauer

Belogurov

Chan

et al. 2006

J. Phys.: Conf. Ser.

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Energy nonlinearity in radiation detection materials: Causes and consequences

Jaffe

Jordan

Peurrung

2007

Nuclear Instruments and Methods in Physics Research Section A:

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Development of bubble chambers with sensitivity to WIMPs

Bond

Collar

Ely

et al. 2005

Nuclear Physics B - Proceedings Supplements

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David V. Jordan

MaGe-a Geant4-Based Monte Carlo Application Framework for Low-Background Germanium Experiments

Hydraulic stimulation and fluid circulation experiments in underground laboratories: Stepping up the scale towards engineered geothermal systems

The majorana neutrinoless double-beta decay experiment

The proposed Majorana 76Ge double-beta decay experiment

Fission fragment isomers populated viaLi6+Th232

MaGe: a Monte Carlo framework for the Gerda and Majorana double beta decay experiments

Energy nonlinearity in radiation detection materials: Causes and consequences

Development of bubble chambers with sensitivity to WIMPs

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