Jackson Choate. Cargo Scanning Thousands of cargo containers enter ports each day Every minute inspecting a cargo container keeps it from shipping Advances.

Slides:

Advertisements

Similar presentations

Instruments for Radiation Detection and Measurement Lab # 4.

Advertisements

Lab B4: The Creation and Annihilation of Antimatter SFSU Physics 490 Spring 2004 Professor Roger Bland.

1 Nuclear Chemistry Chapter 20 Glenn T. Seaborg * Transuranium elements. Pierre and Marie Curie ,* ** Discovered radium;

Gamma-Ray Spectra _ + The photomultiplier records the (UV) light emitted during electronic recombination in the scintillator. Therefore, the spectrum collected.

Study of plastic scintillators for fast neutron measurements

Geiger-Muller detector and Ionization chamber

Chapter 8 Planar Scintigaraphy

Radiation Detectors / Particle Detectors

Medical Imaging Dr. Hugh Blanton ENTC 4390.

LOJ Feb 2004 Radioactivity 2 Ionizing Power and Penetrating Power.

Particle interactions and detectors

Flame Test and the EMS. Absorption and Emission of Light in a Flame When a substance is heated in a flame, the substances electrons absorb energy from.

Gamma-Ray Astronomy Call no Assoc. Prof. Markus Böttcher Clippinger # 339 Phone:

Nuclear Medicine Spring 2009 FINAL. 2 NM Team Nuclear medicine MD Nuclear medicine MD Physicist Physicist Pharmacist Pharmacist Technologist Technologist.

Working Group 2 - Ion acceleration and interactions.

Explosive Detection Technologies

INTERACTION OF IONISING RADIATION WITH MATTER

Nuclear Physics: Radiation, Radioactivity & its Applications.

A Pyro-Electric Crystal Particle Accelerator Chelsea L. Harris, Texas Southern University Dr. Rand Watson, Texas A&M University Cyclotron Institute Pyroelectric.

Techniques for detecting X-rays and gamma-rays Pair production Creation of elementary particle and its antiparticle from a photon. Occurs only if enough.

Gamma Spectroscopy HPT TVAN Technical Training

Atomic X-Ray Spectrometry - Ch12

Writing Decay Equations Radioactivity Radioactive decay is the loss of energy to achieve stability –Spontaneous process –Where unstable isotopes.

Instruments for Radiation Detection and Measurement Lab # 3 (1)

5.4.1 X-Rays. (a) describe the nature of X-rays Stowmarket Physics X-rays - nature Forms of electromagnetic radiation Short wavelength High frequency.

Fluorescence and X rays Physics 3AB Mr. D. Patterson.

Neutron Generation and Detection Lee Robertson Instrument & Source Division Oak Ridge National Laboratory 17 th National School on Neutron and X-ray Scattering.

Stopping Power The linear stopping power S for charged particles in a given absorber is simply defined as the differential energy loss for that particle.

Alhanouf Alshedi CT Physics and Instrumentation RAD

1 Alpha Emissions (How a Smoke Alarm Works). 2 Radioactive Emissions (Radiation) Penetrating Power SymbolEquivalentDescriptionType He Stopped by thick.

Radiation Detection and Measurement, JU, First Semester, (Saed Dababneh). 1 Spectrum if all energy is captured in detector. Allows identification.

DMI 261 Radiation Biology AndProtection. Unit 2 RADIATION Electromagnetic Spectrum –The frequency range of electromagnetic radiation and the photon wavelength.

L 37 Modern Physics [3] Nuclear physics Nuclear energy

Introduction To Nuclear Physics Lab. Contents What is Radioactivity? Radioactivity Decays Interaction of Ionizing Radiation with matter Radiation Detectors.

Characteristic Radiation in Tungsten Targets Shel l # of electrons Binding energy L Char M Char N Char O Char P Char Eff X-ray Energy.

Chapter 32 Radiochemical Methods. Introduction… Radiochemical methods tend to be labor intensive and generate liquid waste due to the chemical separations.

Chapter 1 Structure of matter Chapter 2 Nuclear transformation

Neutron scattering systems for calibration of dark matter search and low-energy neutrino detectors A.Bondar, A.Buzulutskov, A.Burdakov, E.Grishnjaev, A.Dolgov,

1 Nuclear Stability The larger the atom, the greater the proportion of the nucleus that must be neutrons. –The A/Z ratio is greater than 2 (or the N to.

Radioactivity and radioisotopes The nature of radiation Distinguishing Radiation Background Radiation.

Accelerator Physics, JU, First Semester, (Saed Dababneh). 1 Principles of Spectrometry.

Medical Imaging Radiation I. Naked to the Bone: Medical Imaging in the Twentieth Century (Paperback)by Bettyann Kevles Bettyann Kevles E=mc2: A Biography.

Artificial Radioactivity

Seeing the Subatomic Stephen Miller Saturday Morning Physics October 11, 2003.

What is Radiation? Health Physics Society - Power Reactor Section Radiation Science Education.

Medical Image Analysis Interaction of Electromagnetic Radiation with Matter in Medical Imaging Figures come from the textbook: Medical Image Analysis,

Chapter 21 Nuclear Chemistry John A. Schreifels Chemistry 212.

Gamma Decay. Radioactive Decay Alpha Decay Radioactive Decay Alpha Decay Beta Decay.

Accelerator Physics, JU, First Semester, (Saed Dababneh). 1 In the figure: Photoelectric suppressed. Single Compton (effect of crystal dimensions).

PHYSICS 225, 2 ND YEAR LAB NUCLEAR RADIATION DETECTORS G.F. West Thurs, Jan. 19.

Medical applications of particle physics General characteristics of detectors (5 th Chapter) ASLI YILDIRIM.

Nuclear Chemistry By: Sean Krayca. Unstable Nucleus An unstable nucleus releases energy by Radioactive decay.

Detection of Radiation Contents: Geiger tubes Photo-Multiplier tubes Cloud Chambers Solid State devices.

What is radioactivity? lecture 9.1 Gamma ray bursts from a star collapsing into a Black Hole.

7.1 Part 1: Radioactivity & Isotopes. Radiation High energy rays and particles emitted by radioactive sources. (most invisible to human eyes) Includes:

Nuclear Decay. Radioactivity The emission of high-energy radiation or particles from the nucleus of a radioactive atom.

Security Applications of Accelerators

CAT scanners and gamma cameras Unit 16 Waves. Learning objectives Describe how CAT scanners can produce a much more detailed image than conventional X-rays.

Chapter V Radiation Detectors.

Tubular Nuclear Spectacular Spectra Reaction Action The “App”le of My Eye The Light Fantastic.

Nuclear Medicine Instrumentation 242 NMT 1 Dr. Abdo Mansour Assistant Professor of radiology

Radioactivity and Nuclear Energy Chapter 19. Stable and unstable Most atoms are stable Meaning they will not fall apart But all have unstable isotopes.

High Energy Observational Astrophysics. 1 Processes that emit X-rays and Gamma rays.

Nuclear Radiation NC Essential Standard Types of Radiation, Penetrating Ability of Radiation, Nuclear Equations, Nuclear Decay, Half-Life, Fission.

Radiation Applications Application Cards Find the type of radiation used for your application. Note: If more than one type – choose one Group according.

MODES_SNM Modular Detection System for Special Nuclear Material FP7-SEC G. Viesti Dipartimento di Fisica ed Astronomia Università di Padova.

Function and Structure in

Function and Structure in

Unit 4 – Nuclear Reactions

Presentation transcript:

Jackson Choate

Cargo Scanning Thousands of cargo containers enter ports each day Every minute inspecting a cargo container keeps it from shipping Advances in gamma ray, high energy x-ray, and neutron scanning are reducing inspection times

Gamma-Ray Radiography Gamma ray scanners can penetrate denser materials than conventional x-rays Cobalt-60 produces 1.25 MeV gamma rays capable of penetrating 15 – 18 cm of steel Provides an “x-ray” of cargo containers Gamma ray detectors can also pick up photon emissions from radioactive sources, but some may be benign, i.e. Potassium-40

High Energy X-Ray Radiography High Energy X-rays can be produced through Bremsstrahlung process Electrons used are accelerated up to 6 MeV, producing x-rays capable of penetrating 30 – 40 cm of steel Penetrate deeper than radioactive gamma rays, but are more expensive to use Deliver about 1000 times more radiation to stowaways

Neutron Interrogation Inelastic neutron scattering produces gamma rays with distinctive energies Neutrons generated by pulsed fusions of deuterium and tritium Gamma ray energies can be compared to those of known materials Does not provide an image, but photon spectrum provides more information about what materials are present

High Energy Photon Detection To create an image, photons must be correlated to their origin via a collimator made of a dense material Collimated photons then hit a scintillator, emitting a lower energy photon The lower energy photon can then be detected via a photomultiplier

Neutrons can be detected through scintillation as well, but are more commonly detected through absorption reactions Gas proportional detectors use gases with high neutron absorption cross-sections, such as 3 He or BF 3 (using 10 B), to emit ionized particles n + 3 He → 3 H + p + e - n + 10 B → 7 Li + α + 2e - However, these detectors can only count the number of neutron interactions, not their energies

 High energy particles and radiation can be used to minimize the amount of time it takes to inspect cargo  Gamma rays and high energy x-rays provide a thorough image of target  Neutrons provide a photon spectrum that can be compared to known materials

 Clements, Elizabeth. "High-energy X-rays search containers." Symmetry Aug 2010: n. pag. Web. Oct  Gilmore G, Hemingway J. Practical Gamma-Ray Spectrometry. John Wiley & Sons, Chichester:  Jones,J. L.; Haskell, K. J.; Hoggan, J. M.; Norman, D. R. (June 2002) (PDF). ARACOR Eagle-Matched Operations and Neutron Detector Performance Tests. Idaho National Engineering and Environmental Laboratory. ments/ pdf. Retrieved Oct