Status of IFAE/UAB Raman LIDAR Lluís Font and Markus Gaug UAB & CERES-IEEC Central Calibration Facilities meeting Barcelona 20-23 June 2016.

Slides:

Advertisements

Similar presentations

LIDAR TECHNOLOGIES FOR EARTH OBSERVATION January 2008 Dr Kim Hampton Lidar Technologies Ltd.

Advertisements

ESTO Advanced Component Technology 11/17/03 Laser Sounder for Remotely Measuring Atmospheric CO 2 Concentrations GSFC CO 2 Science and Sounder.

APS-DPP-2005-LeBlanc-1 Update on MPTS B.P. LeBlanc Princeton Plasma Physics Laboratory NSTX Results Review July 26-27, 2006 Princeton, NJ.

Studying the Physical Properties of the Atmosphere using LIDAR technique Dinh Van Trung and Nguyen Thanh Binh, Nguyen Dai Hung, Dao Duy Thang, Bui Van.

Daylight visibility of Laser Beam Eastbourne, October 2005 Daylight Visibility of a kHz - but µJ – Laser Beam.

EUSO Onboard LIDAR M.Teshima Discussion by Valentin Mitev Neuschatel Observatory

2013 LIDAR'S TELESCOPE AUTO-ALIGNMENT SYSTEM FOR CTA Auteurs principaux : Mr. PALLOTTA, Juan Co-auteurs : Dr. RISTORI, Pablo 1 ; Dr. OTERO, Lidia 1 ; Mr.

Measured parameters: particle backscatter at 355 and 532 nm, particle extinction at 355 nm, lidar ratio at 355 nm, particle depolarization at 355 nm, atmospheric.

1 LIGO-G v3 Transmission Monitoring Telescope and Suspension – TMS Eric Gustafson aLIGO NSF Review LIGO Livingston Observatory April 25-27, 2011.

1 Progress of Changchun SLR You ZHAO, Cunbo FAN, Xinwei HAN, Gang ZHAO, Ziang ZHANG, Xue DONG Changchun Observatory/NAOC, CAS, , China.

Work Package 2 – Overview of instrumentation, data gathering and calibration issues Lidar Calibration Ewan O’Connor, Anthony Illingworth and Robin Hogan.

G D 1 LIGO-????????? Photon Calibration System (PhotonCal)

Auger Fluorescence Detector

NDACC Working Group on Water Vapor NDACC Working Group on Water Vapor Bern, July 5 -7, 2006 Raman Lidar activities at Rome - Tor Vergata F.Congeduti, F.Cardillo,

A Laser Based Alignment System for the CLIC project

NuMI Offaxis Costs and Whither Next Stanley Wojcicki Stanford University Cambridge Offaxis workshop January 12, 2004.

LIDAR Light Detection and Ranging Kate Whalen PHY 3903 Nov. 25, 2005.

UAH Ground-based Ozone Lidar - A New NDACC Lidar Station Member NDACC Lidar Working Group Meeting, NASA/JPL, Table Mountain, CA Nov. 4, 2013

Nanoscale Cr 4+ – Doped Olivine Crystallites in Glass-Ceramics for NIR Optical Amplifiers and Lasers By: Fayette Colon Mentor: Mikhail Sharonov Assistant.

Lidar remote sensing for the characterization of the atmospheric aerosol on local and large spatial scale.

Project Overview Laser Spectroscopy Group A. A. Ruth Department of Physics, University College Cork, Cork, Ireland.

PACS IHDR 12/13 Nov 2003 PACS FPU Optics: Concept and Alignment R. Graue, D. Kampf Kayser-Threde.

Feasibility of Optical Wireless transmission systems for CTA R. Corsini, A. Wajahat, E. Ciaramella Scuola Superiore Sant’Anna, TeCP, Pisa, Italy R. Paoletti.

WU1 - Management S. Gammino (INFN). WU1 Management and TDR preparation: overview and criticalities 2 The WP6 aim is to define the best design of the Warm.

Intermediate review - ERC – February 9, 2009 – L. Pinard 1 Mirrors Sub-System Overview  Introduction  Scope of the subsystem, main tasks  Job done since.

PACS IIDR 01/02 Mar 2001 Instrument Interfaces1 PACS FPU Opto-mechanical Design Overview and Interfaces J. Schubert MPE.

Second GALION Workshop, WMO, Geneva, 20 ‐ 23 September 2010 A d v a n c e d L I D A R S y s t e m s Established in Athens, Greece in 2002 COMPANY SCOPE.

TOLNet/UAH Station Report – Operation, Upgrade, and Future Plan TOLNet Working Group Meeting, NOAA/ESRL/CSD, Boulder, CO June 16 15:30, 2015

Mike Newchurch 1, Shi Kuang 1, John Burris 2, Steve Johnson 3, Stephanie Long 1 1 University of Alabama in Huntsville, 2 NASA/Goddard Space Flight Center,

An Approach to Stabilizing Large Telescopes for Stellar Interferometry It shakes like a…. [G. Vasisht, 31 March 2006] N. Di Lieto J. Sahlmann, G. Vasisht,

Absolute Measurement of Air Fluorescence Yield for Ultra-High Energy Cosmic Rays Paolo Privitera Carlos Hojvat Fermilab, June FD SD.

HEAPnet meeting, February 2007, Amsterdam Atmospheric corrections determined using Raman/backscatter lidar measurements 1 LIDAR Atmospheric corrections.

LASER CALIBRATION SYSTEM for STAR TPC Alexei Lebedev (BNL) for STAR collaboration  Design and description  Performance  Goals and results  Future developments.

Monitoring of Eyjafjallajökull Ash Layer Evolution over Payerne- Switzerland with a Raman Lidar Todor Dinoev, Valentin Simeonov*, and Mark Parlange Swiss.

Final Presentation Prime Mobility Group Group Members: Fredrick Baggett William Crick Sean Maxon Project Advisor: Dr. Elliot Moore.

A new method for first-principles calibration

On-line Sorting Technologies for CCA Treated Wood Sarasota Team Meeting June 5, 2001.

1 Progress of the Thomson Scattering Experiment on HSX K. Zhai, F.S.B. Anderson, D.T. Anderson HSX Plasma Laboratory, UW-Madison Bill Mason PSL, UW-Madison,

MSFC/GHCC 1 2 micron pulsed ground based lidar Non-Contact Velocity Measurements on Simulated River Surfaces Using Coherent Doppler Lidar Preliminary Results.

RD51 GEM Telescope: results from June 2010 test beam and work in progress Matteo Alfonsi on behalf of CERN GDD group and Siena/PISA INFN group.

RECONFIGURATION of the RECEIVER SYSTEM for SODIUM DOPPLER WIND/TEMPERATURE LIDAR Vardan Semerjyan, Undergraduate Researcher Tao Yuan, Faculty Mentor The.

George Avdikos, PhD Raymetrics S.A. 1. Executive Summary 2  Founded in Athens, Greece in 2002  Mainly professionals with extensive experience and postgraduate.

AHCAL Electronics. Status of Integration Mathias Reinecke for the DESY AHCAL developers AHCAL main and analysis meeting Hamburg, July 16th and 17th, 2009.

Vincenzo Rizi CETEMPS, Dipartimento di Scienze Fisiche e Chimiche, Università Degli Studi dell’Aquila, L’Aquila, Italy Raman.

Content Lessons from writing proposals and work on PTDR How can this meeting help to remedy problems SCT AOB.

METR Advanced Atmospheric Radiation Dave Turner Lecture 11.

Markus Gaug, CCF-Meeting, Barcelona Oct Oct. 26 th, Status of the IFAE/UAB Raman LIDAR Markus Gaug Universitat Autònoma de Barcelona.

Atmospheric Monitoring for the MAGIC Telescopes Markus Gaug 1,2, Michele Doro 1,2,3, Daniel Garrido 1,2, Christian Fruck 4 for the MAGIC Collaboration.

DECam Spectrophotometric Calibration DECam calibration workshop, TAMU April 20 th, 2009 Jean-Philippe Rheault, Texas A&M University.

RICH Readout Plans F. Bucci, M. Piccini on behalf of the RICH WG.

Pulse energy measurement for the CTF lasers.

LIDAR experiment In-situ laser-induced condensation in free atmosphere

Regional Radiation Center (RRC) II (Asia)

Weather monitoring status and ORM

Compact readout unit for the EP-RADMON radiation monitoring sensors

ATMOSPHERIC MONITORING AND CALIBRATIONS PLANS WITH CTA

X-ray Pump-Probe Instrument

Directional Optical Module Integration

Low-Cost Fundus Camera

Launch and On-orbit Checkout

Project Readiness Review P10029 – Air Muscle Artificial Limb

LGS Project Meeting December 21, 2006 Agenda SWIFT update - A. Bouchez

Instrument operation update (NO science)

Eureka Stratospheric Ozone Differential Absorption LIDAR:

An (almost) unexpected way to detect very thin diffuse (aged

New automation capability of the NDACC/TOLNet tropospheric

Optimization of the LiDAR optical design for measurement of the aerosol extinction vertical profile. Alessia Sannino *1, Antonella Boselli 3, Gaetano Sasso4,

NDACC Lidar measurements at OHP

Status of the Calibration

Presentation transcript:

Status of IFAE/UAB Raman LIDAR Lluís Font and Markus Gaug UAB & CERES-IEEC Central Calibration Facilities meeting Barcelona June 2016

Overview The concept Recycle a former CLUE telescope and container to build and advanced Raman LIDAR optimized for CTA configuration: 355 nm nm elastic channels 387 nm nm N 2 Raman lines Atmospheric molecular and aerosol transparency as a function of range and wavelength. Laser: Brilliant Compact Q-Switched Nd:YAG 1064nm + frequency tripler head Rate:10 Hz Pulse:5 ns Beam divergence:0.5 mrad Parabolic mirror f = 180 cm => f/D = 1 Dichroic guiding mirrors  coaxial Polychromator home made Acquisition: standard LICEL units

Overview The strategy IFAE/UAB prototype LUPM prototype Long-term La Palma (1 year of robotic operation) Final Raman LIDAR design (based on former CLUE experiment)

Overview The funding situation Funding for LIDAR prototype still is insufficient this year (as all Spanish funding proposals in 2016). Funds for final LIDAR will come from FEDER funds in The team + Markus Gaug (UAB) + Oscar Martínez (IFAE) (Eng) + Oscar Blanch (IFAE) + Oriol Calpe (UAB) (Undergraduate) + Michele Doro (INFN Padova) + Lluís Font (UAB) + Merve Colak (IFAE) (PhD student) + Scott Griffiths (IFAE) (Postdoc) + Manel Martínez (IFAE)

Status prototype Hardware Mirror characterized Liquid light guide characterized Guiding mirrors (dichroic) + alignment in zenit. Monochromator used Driving system not robotic yet Polychromator finished. Characterization studies on-going Laser being repaired. Near range solution and fine- alignment postponed. Back on track soon (within 2 weeks)

Status prototype Software Library to read Licel files ready Internal communication translated from Labview to C (in process) Documentation Finished one bachelor thesis on pre-alignment (Eudald Font) Another bachelor thesis on polychromator characterization is on-going (Oriol Calpe) Constantly update a LIDAR TDR ICDs created (except for the one with ACTL)

LIDAR alignment 7

8 23/07: “calima”

Documentation 9

Polychromator 10

11 Polychromator

12 Characterization test set up Xe source Colimator Filter wheel Monochromator Shutter Liquid light guidePolychromator PIN diode

Polychromator nm Preliminary results 607 nm

Polychromator nm Preliminary results 355nm 387nm 532nm 607nm

Outline Polychromator characterization will finish soon (2 weeks). Near range solution and fine alignment will start before summer holidays. Making it robotic. Prototype should be ready for long term testing by mid 2017