Fermi LAT Monash University Nov 23-24, 2009 R.DuboisFermi LAT Science Analysis Tutorial1 LS I +61 303 Analysis In the galactic plane, but in the suburbs.

Slides:

Advertisements

Similar presentations

2004 Sepjcm/sao/nvo1 Spectrum Data Model Jonathan McDowell CfA US National Virtual Observatory.

Advertisements

Hypothesis Testing with t Tests

GLAST Science Support CenterAugust 9, 2004 Overview of Analyzing GLAST Data David Band (GLAST SSC—GSFC/UMBC)

Highlights from monitoring candidate gamma-ray binary systems with Fermi/LAT Thomas Glanzman (SLAC) and Richard Dubois (SLAC) on behalf of the Fermi Large.

GLAST Science Support CenterAugust 9, 2004 Likelihood Analysis of LAT Data James Chiang (GLAST SSC – SLAC)

Andrea Caliandro 1 Andrea Caliandro (INFN - Bari) on behalf the FERMI-LAT collaboration PSR J : the youngest gamma-ray pulsar in the Galaxy?

GLAST LAT Project Astrostatistics Workshop, HEAD meeting, 10 September 2004 James Chiang (GSSC/UMBC) 1 Gamma-ray Large Area Space Telescope Challenges.

The 3rd Fermi Catalog arXiv: Zhang Xiao 2015/03/10.

7 June 06 1 UW Point Source Detection and Localization: Compare with DC2 truth Toby Burnett University of Washington.

1 Search for Dark Matter Galactic Satellites with Fermi-LAT Ping Wang KIPAC-SLAC, Stanford University Representing the Fermi LAT Collaboration.

G. Cowan Lectures on Statistical Data Analysis 1 Statistical Data Analysis: Lecture 10 1Probability, Bayes’ theorem, random variables, pdfs 2Functions.

GLAST LAT ProjectDC1 Closeout Workshop, Feb , Statistical Issues in Likelihood Analysis of LAT Data Seth Digel (HEPL/Stanford Univ.) & Guillaume.

GLAST Science Support Center February 12, 2004 DC1 Closeout Detecting Gamma-Ray Bursts in the DC1 Data David Band (GSSC)

Gary C. Hill, CCAPP Symposium 2009, Ohio State University, October 12th, 2009 Photograph: Forest Banks Gary C. Hill University of Wisconsin, Madison for.

P. NolanGLAST LAT DC1: 2003 December 81 DC1 Scientific Data Analysis: Likelihood Patrick Nolan Stanford University.

THB Source Catalog Meeting 12/21/05 1 Healpixels and Wavelets Toby Burnett and Bruce Lesnick University of Washington.

Darren Baskill Timing mode spectral correction MOS Timing mode spectra problem.

14 July 2009Keith Bechtol1 GeV Gamma-ray Observations of Galaxy Clusters with the Fermi LAT Keith Bechtol representing the Fermi LAT Collaboration July.

1 TEV PA Meeting July 2009 Preliminary Fermi-LAT Limits on High Energy Gamma Lines from WIMP Annihilation Yvonne Edmonds representing the Fermi-LAT Collaboration.

GLAST LAT Project SLAC Jan. 12, 2004 Hammer-Aitoff map.

Introduction To Signal Processing & Data Analysis

GAMMA 2012 Heidelberg, 9-13 July 2012 VHE measurements of the Crab Nebula and Pulsar by the MAGIC Telescopes Gianluca Giavitto, S. Klepser, M. Lopez, D.

GLAST Science Support Center June 29, 2005Data Challenge II Software Workshop GRB Analysis David Band GSFC/UMBC.

Noise Analysis in NaIAD Matthew Robinson Experiment now running reliably therefore time to work on getting the best from the analysis.

SLAC March 1 st 2006 GLAST LAT Software F.Longo GLAST LAT GLAST LAT SW Overview of Cookbook Examples Francesco Longo University and INFN, Trieste, Italy.

Spectral analysis on faint extended sources: problems and strategies. Gamma-ray Large Area Space Telescope Omar Tibolla Padova University DC2 Closeout.

Adam Zok Science Undergraduate Laboratory Internship Program August 14, 2008.

A statistical test for point source searches - Aart Heijboer - AWG - Cern june 2002 A statistical test for point source searches Aart Heijboer contents:

Point Source Search with 2007 & 2008 data Claudio Bogazzi AWG videconference 03 / 09 / 2010.

Fitting the HiRes Data Douglas Bergman Rutgers University 28 April 2005.

Fermi LAT Monash University Nov 21, 2009 R.DuboisFermi LAT Science Analysis Tutorial1 Issues in a Nutshell LS5039 Low stats: 4k photons in 1 yr Strong.

The IceCube Neutrino Observatory is a cubic kilometer detector at the geographic South Pole. We give an overview of searches for time-variable neutrino.

Analysis methods for Milky Way dark matter halo detection Aaron Sander 1, Larry Wai 2, Brian Winer 1, Richard Hughes 1, and Igor Moskalenko 2 1 Department.

Fermi LAT Monash University Nov 21, 2009 R.DuboisFermi LAT Science Analysis Tutorial1 Things that can bite you: DIY cuts For Science Tools analysis, getting.

GLAST LAT Project DC2 Closeout Workshop, GSFC, 31 May-2 June Comparisons of Searches for Sources in the DC2 Data S. W. Digel Stanford Linear Accelerator.

First Exploration of MWA Deep Field Point Source Population C. Williams - PhD Thesis J. Hewitt – reporting some analysis.

Fermi Cycle-2 Proposal Workshop Center for Astrophysics, Feb. 13, 2009 Dave Davis, FSSC 1 FSSC Science Tools for Cycle 2.

September 10, 2002M. Fechner1 Energy reconstruction in quasi elastic events unfolding physics and detector effects M. Fechner, Ecole Normale Supérieure.

Response of the KM3NeT detector to neutrinos from Fermi bubbles.

32 nd ICRC –Beijing – August 11-18, 2011 Silvia Vernetto IFSI-INAF Torino, ITALY On behalf of the ARGO-YBJ collaboration Observation of MGRO J with.

All-sky source search Aim: Look for a fast method to find sources over the whole sky Selection criteria Algorithms Iteration Simulations Energy information.

GLAST Science Support Center November 8, 2005 GUC Action Item #15 AI#15: Pre-Launch GI Proposal Tools David Band (GSSC/JCA-UMBC)

GAMMA RAY BINARIES WITH FERMI Chandreyee Maitra Crystal Nuansa Aini Harsha Raichur Partha Sarathi Pal Instructors Robin Corbet, Mariano Mendez.

Discovery of the X-ray emission from the darkest TeV object HESS J

Gamma-ray Bursts (GRBs)

Alessandro Buzzatti Università degli Studi di Torino / SLAC

The Crab Light Curve and Spectra from GBM: An Update

Discovery of a GeV blazar shining through the galactic plane

Galactic Gamma-Ray Transients with AGILE

Fermi LAT Limits on High-Energy Gamma Lines from WIMP Annihilation

EBL Absorption Signatures in DC2 Data

Data Challenge II Logo by Stefano Ciprini.

First day: Planets, Sun and Moon

Proposal for LAT Year 1 Data Release Plan

Erik Strahler UW-Madison 28/4/2009

Source Detection by Count Excess

Extragalactic & Miscellaneous Sources

F - Ratio Table Degrees of Freedom for the Factor

Source catalogue generation

LAT performance for DC2 and the “4-panel plot”

SNRs as PeVatron candidates for CTA

Massive star clusters as Sources of Galactic Cosmic Rays (arXiv:1804

The spectral properties of Galactic X-ray sources at faint fluxes

The spectral evolution of impulsive solar X-ray flares

10th ASTRI GENERAL MEETING

AstroPlasmas group June 14, 2010 Mike Baker.

Time-Dependent Searches for Neutrino Point Sources with IceCube

Fermi LAT Observations of Galactic X-ray binaries

EBL Absorption Signatures in DC2 Data

Variability Study of Fermi Blazars

Presentation transcript:

Fermi LAT Monash University Nov 23-24, 2009 R.DuboisFermi LAT Science Analysis Tutorial1 LS I Analysis In the galactic plane, but in the suburbs –Harder than 3C454, but much easier than galactic center Main differences: –Stronger diffuse response –More neighbouring sources –High latitude –Well… periodic as well as variable –Exponential cutoff model – how to decide that

Fermi LAT Monash University Nov 23-24, 2009 R.DuboisFermi LAT Science Analysis Tutorial2 Spectral Analysis: exponential cutoff Most common form is power law: AE -  Pulsars are usually exponential cutoffs: AE -  exp(E/E cut ) Use likelihood ratio to distinguish: 2  ln(LL) ~  2 Where the 2 models differ by one degree of freedom Power law fit Exp cutoff fit

Fermi LAT Monash University Nov 23-24, 2009 R.DuboisFermi LAT Science Analysis Tutorial3 Source Model for LS I

Fermi LAT Monash University Nov 23-24, 2009 R.DuboisFermi LAT Science Analysis Tutorial4 Timing Analysis: LC and folded LC Aperture photometry –AKA counting photons in a cone –Quick and easy –No modeling! –Folded LC is average of flux in phase bins Likelihood fits in time bins –Needs statistics –Time consuming to do

Fermi LAT Monash University Nov 23-24, 2009 R.DuboisFermi LAT Science Analysis Tutorial5 LS I Systematics Alternate fitting method “Bracketing” Aeff IRF Different diffuse model Vary lower energy cut