Neutron emission asymmetries from linearly polarized γ rays on nat Cd, nat Sn, and 181 Ta

Similar documents
Low-Energy Photonuclear Reactions A Review

CALIBRATION OF SCINTILLATION DETECTORS USING A DT GENERATOR Jarrod D. Edwards, Sara A. Pozzi, and John T. Mihalczo

Multi Channel Analyzer (MCA) Analyzing a Gamma spectrum

Detection of explosives and fissile material based on neutron generators, survey of techniques and methods. M. Bruggeman

STUDY ON THE ENERGY RESPONSE OF PLASTIC SCINTILLATION DETECTOR TO MEV NEUTRONS ABSTRACT

Correlations in Prompt Neutrons and Gamma Rays from Fission

Challenges for the HI γs Compton Program

Laser Compton Scattering Gamma-Ray Experiments for Supernova Neutrino Process )

V. 3. Development of an Accelerator Beam Loss Monitor Using an Optical Fiber

Applied Nuclear Physics (Fall 2006) Lecture 21 (11/29/06) Detection of Nuclear Radiation: Pulse Height Spectra

COMPARATIVE STUDY OF PIGE, PIXE AND NAA ANALYTICAL TECHNIQUES FOR THE DETERMINATION OF MINOR ELEMENTS IN STEELS

Observation of flavor swap process in supernova II neutrino spectra

An introduction to Neutron Resonance Densitometry (Short Summary)

Nuclear Recoil Scintillation and Ionization Yields in Liquid Xenon

Contrabands detection with a low energy electron linac driven photoneutron source

Development of a Hard X-Ray Polarimeter for Solar Flares and Gamma-Ray Bursts

The Ones That Got Away: Neutron Leakage Spectra

Louis Baum University of Michigan, REU Student Summer UM Nuclear Sciences Group

Gamma-Rays and Blowfish. What are we doing? Why are we doing it? How are we doing it?

Physics 126 Practice Exam #4 Professor Siegel

Correlations in Prompt Neutrons and Gamma Rays from Fission

Research Opportunities at the Upgraded ΗΙγS Facility

Correlation in Spontaneous Fission of Cf252

Measurements of liquid xenon s response to low-energy particle interactions

Particle Detectors. How to See the Invisible

High Energy Photons at HI S

Interactive Web Accessible Gamma-Spectrum Generator & EasyMonteCarlo Tools

This paper should be understood as an extended version of a talk given at the

Polarimetry Options for E160

Neutron Instruments I & II. Ken Andersen ESS Instruments Division

VorobyevA.S., ShcherbakovO.A., GagarskiA.M., Val ski G.V., Petrov G.A.

Cf-252 spontaneous fission prompt neutron and photon correlations

RESPONSE FUNCTION STUDY FOR ENERGY TO LIGHT CONVERSION IN ORGANIC LIQUID SCINTILLATORS

How to Prepare an Experiment using the Gamma Beam System at ELI-NP

DETECTORS. I. Charged Particle Detectors

Measurements of Photonuclear Reactions Induced with Linearly Polarized Gamma Rays. By Stephen Yates

Calibration of EJ-301, a Liquid Scintillator

Background Neutron Studies for Coherent Elastic Neutrino-Nucleus Scattering Measurements at the SNS

Fissile material experiments at the Device Assembly Facility

Measurement of nuclear recoil responses of NaI(Tl) crystal for dark matter search

Dedicated Arrays: MEDEA GDR studies (E γ = MeV) Highly excited CN E*~ MeV, 4 T 8 MeV

SOFIA Fission studies at GSI

A Proposal of Nuclear Materials Detection and Inspection Systems in Heavily Shielded Suspicious Objects by Non-destructive Manner.

Data Acquisition. What choices need to be made?

A Measurement of Monoenergetic Neutrons from 9 Be(p,n) 9 B

Fast neutron inelastic scattering Roland Beyer, Forschungszentrum Dresden-Rossendorf

A new scintillator detector for nuclear physics experiments: the CLYC scintillator

Investigation of fast neutron spectroscopy capability of 7 Li and 6. Li enriched CLYC scintillator for nuclear physics experiments

ECE Semiconductor Device and Material Characterization

arxiv: v1 [physics.ins-det] 3 Feb 2011

Neutron Physics. The De Broglie relation for matter is: h mv (1) λ =

9/27 JUNE 2003 SUMMER STAGE PARTICLES REVELATION THROUGH CERENKOV AND SCINTILLATION COUNTER AND THE CEBAF EXPERIMENT

Fission fragment mass distributions via prompt γ -ray spectroscopy

Neutron Capture Experiments with DANCE

Compton suppression spectrometry

Quality Assurance. Purity control. Polycrystalline Ingots

Photonuclear studies with gamma beams Gamma above neutron threshold

arxiv: v2 [physics.ins-det] 28 Jul 2010

Photoneutron reactions studies at ELI-NP using a direct neutron multiplicity sorting method Dan Filipescu

Coulomb excitation experiments at JAEA (Japan Atomic Energy Institute)

SURROGATE REACTIONS. An overview of papers by Jason Burke from LLNL

Investigation of Pygmy Dipole Resonance in neutron rich exotic nuclei

SCINTILLATION DETECTORS AND PM TUBES

Measurement of 40 MeV Deuteron Induced Reaction on Fe and Ta for Neutron Emission Spectrum and Activation Cross Section

Nuclear Astrophysics Research at HIγS

Paul Huffman! Investigating Hadronic Parity Violation Using the γd np Reaction at the Proposed HIGS2 facility at TUNL

Neutron-induced reaction cross sections measured at. Triangle Universities Nuclear Laboratory. John Kelley

PHYS 3650L - Modern Physics Laboratory

Detekce a spektrometrie neutronů. neutron detection and spectroscopy

GAMMA BEAM DELIVERY AND DIAGNOSTICS

Neutron and Gamma Ray Imaging for Nuclear Materials Identification

Polarization Correlation in the Gamma- Gamma Decay of Positronium

Overview of Current Radioxenon Research

Fast Neutron Detectors (and other CVT contributions by UF)

Physics 3204 UNIT 3 Test Matter Energy Interface

Last Lecture 1) Silicon tracking detectors 2) Reconstructing track momenta

Gamma ray coincidence and angular correlation

Photon-scattering experiments at γelbe and at HIγS Data analysis Results Comparison of experimental results with model predictions

LENA. Investigation of Optical Scintillation Properties and the Detection of Supernovae Relic Neutrinos. M. Wurm. January 18, 2006 LENA. M.

Introduction to Environmental Measurement Techniques Radioactivity. Dana Pittauer 1of 48

Dipole Response of Exotic Nuclei and Symmetry Energy Experiments at the LAND R 3 B Setup

ARTICLE IN PRESS. Nuclear Instruments and Methods in Physics Research A

Rutherford Backscattering Spectrometry

THE COMPTON EFFECT Last Revised: January 5, 2007

TIGRESS Auxiliary Detectors

Rivelazione di neutrini solari - Borexino Lino Miramonti 6 Giugno 2006 Gran Sasso

Photons in the universe. Indian Institute of Technology Ropar

arxiv: v1 [physics.ins-det] 16 May 2017

Application of prompt gamma activation analysis with neutron beams for the detection and analysis of nuclear materials in containers

Scintillation Detector

Development of an active scintillating target for fission studies. J. Aupiais, G. Bélier CEA, DAM, DIF, F Arpajon France

RITU and the GREAT Spectrometer

ARTICLE IN PRESS. Nuclear Instruments and Methods in Physics Research A

Copyright 2008, University of Chicago, Department of Physics. Gamma Cross-sections. NaI crystal (~2" dia) mounted on photo-multiplier tube

Atomic and Nuclear Analytical Methods

Opportunities with collinear laser spectroscopy at DESIR:

Coordinated Research Project on Photonuclear Data and Photon Strength Functions Approved in July 2015; Code F41032; Duration 2016 t 2020.

W. Udo Schröder Departments of Chemistry & of Physics and Astronomy

G13 Update. CLAS collaboration meeting

Experimental Activities in China

Transcription:

Neutron emission asymmetries from linearly polarized γ rays on nat Cd, nat Sn, and 8 Ta Clarke Smith, Gerald Feldman, and the HIγS Collaboration George Triangle C. Smith, G. Feldman (GWU) Washington University Universities Nuclear Laboratory (TUNL) Asymmetric neutron emissions /

High Intensity γ-ray Source at TUNL HIγS produces γ rays by Compton backscattering free-electron-laser photons from stored electrons intense and nearly monochromatic circularly or linearly polarized neutron emission induced by incident 0-0 MeV photons via (γ, n), (γ, n), and (γ, f) in both fissile and nonfissile targets C. Smith, G. Feldman (GWU) Asymmetric neutron emissions /

Photofission studies at HIγS using linearly polarized incident γ rays, neutron emission is azimuthally asymmetric asymmetry depends on: emitted neutron energies nuclear species of the target can possibly be exploited for applications involving isotopic identification C. Smith, G. Feldman (GWU) Asymmetric neutron emissions /

Neutron detection outgoing neutrons detected by 8 liquid-scintillator neutron detectors mounted at: φ lab = 0, 90, 80, 70 θ lab = 55, 7, 90, 07, 5, targets positioned in center of array, tilted in θ lab and φ lab (each at 5 ) to double effective thickness time of flight measured over 58 cm flight path C. Smith, G. Feldman (GWU) Asymmetric neutron emissions /

Neutron emission asymmetries asymmetrical production of neutrons allows construction of I /I, the ratio of yields parallel to yields perpendicular to the plane of γ-ray polarization I I = N left + N right N top + N bottom N is the number of neutron counts per detector in an energy bin of width E = MeV generate plots of I /I as a function of outgoing neutron energy E n potentially useful for isotopic identification C. Smith, G. Feldman (GWU) Asymmetric neutron emissions 5 /

Targets fissile targets nonfissile targets Mar. 009 Feb. 00 Jul. 00 Jul. 0 8 U 5 U, 8 U 9 Pu, Th - nat Pb, 09 Bi, nat Fe, nat Cu, nat Cr nat Pb 9 Be, nat Cd, nat Sn, 8 Ta nat La, nat Hg, nat Dy C. Smith, G. Feldman (GWU) Asymmetric neutron emissions 6 /

July 00 nat Cd, nat Sn, and 8 Ta runs γ rays produced by HIγS were incident on nat Cd, nat Sn, 8 Ta data were taken at incident photon energies E γ =.0 5.5 MeV for nonfissile targets with high (γ, n) thresholds, measured asymmetries result unambiguously from (γ, n) e.g. nat Cd, nat Sn, 8 Ta targets chosen for low (γ, n) thresholds and high expected I /I values E γ (MeV).0.0.0.0 5.0 5.5 nat Cd - - X X X X nat Sn - - X - X X 8 Ta X X X X - X C. Smith, G. Feldman (GWU) Asymmetric neutron emissions 7 /

Data analysis with ROOT data collected includes: pulse height time-of-flight (ToF) pulse-shape discrimination (PSD) neutrons distinguished from Compton-scattered photons by D cuts on ToF vs. PSD plots E n calculated using ToF techniques: E n = m n ( ) x, where x = 8 m t additional data taken using 5.5 MeV circularly polarized γ rays used to check for systematic differences in detector efficiency corrections applied to data taken using linearly polarized γ rays C. Smith, G. Feldman (GWU) Asymmetric neutron emissions 8 /

cut placed on PSD data.. Neutrons were subsequently isolated from photons with two-dimensional cuts on the plots of ToF vs. PSD, as shown below. ToF projection Neutrons Neutrons shown in red shown in red! Neutrons! Photons! TOF vs. PSD plot, showing two-dimensional cut to isolate neutrons inside the red box. One-dimensional histograms showing TOF and PSD projections. The results of the -D cut are highlighted in red (isolated neutrons). PSD projection. These nonrelativistic neutrons had their energies (En) determined by ToF techniques using the following: C. Smith, G. Feldman (GWU) Asymmetric neutron emissions 9 /

circularly polarized linearly polarized C. Smith, G. Feldman (GWU) Asymmetric neutron emissions 0 /

Neutron asymmetry plots for various E γ (θ lab = 90 ).5.5 Cd Sn Ta.0 MeV.5.5.0 MeV.5.5.0 MeV.5.5.5.5.5.0 MeV.5.5 5.0 MeV.5.5 5.5 MeV.5.5.5 C. Smith, G. Feldman (GWU) Asymmetric neutron emissions /

Neutron asymmetry plots for various θ lab (E γ = 5.5 MeV).5 Cd Sn Ta 55.5 7.5 90.5.5.5.5 07.5 5.5.5.5.5 C. Smith, G. Feldman (GWU) Asymmetric neutron emissions /

Summary linearly polarized γ rays were incident on nat Cd, nat Sn, and 8 Ta we observed an azimuthal asymmetry in neutron emission that was relatively distinct for nat Cd, nat Sn, and 8 Ta asymmetries also distinct from previously studied targets at HIγS future work determine characteristic I /I vs. E n curves for additional fissile and nonfissile targets collect data for targets with multiple isotopic components to gauge ability to determine isotopic composition C. Smith, G. Feldman (GWU) Asymmetric neutron emissions /

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback