Atmospheric Concentration Retrieval Using a Quantum Cascade Laser System and Mid-Infrared Technologies Jensen Cheong, Stuyvesant High School Student MIRTHE.

Slides:

Advertisements

Similar presentations

General Characteristics of Gas Detectors

Advertisements

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

Lecture 12 Content LIDAR 4/15/2017 GEM 3366.

Synthesis & Study of Fluorescence Properties of Cr-doped LiInSiO 4 - Ca 2 SiO 4 Solid State Solutions By: Caesar Pereira (Archbishop Stepinac H.S.) Supervising.

By: James, Jasmeet, Megan, Michelle, and Gurkirat.

MULTIPLEXED CHIRPED PULSE QUANTUM CASCADE LASER MEASUREMENTS OF AMMONIA AND OTHER SMALL MOLECULES Craig Picken, David Wilson, Nigel Langford and Geoffrey.

National Aeronautics and Space Administration Jet Propulsion Laboratory California Institute of Technology Pasadena, California Observing System Simulation.

Study of Mid-Infrared Light Scattering Due to Skin for a Non-Invasive Glucose Monitor with an Automated Setup Kevin A. Bors, Sabbir Liakat, Anna P. M.

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

Set-up for Levy Flight of Photons in Resonant Atomic Vapor Danielle Citro (SUNY Oswego), Adailton Feliciano (UFPB), Martine Chevrollier (UFPB), Marcos.

Common types of spectroscopy

· Are human activities responsible for the warming? Separating out the impact of human activity from natural climate variation is extremely difficult.

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

Tropical Cyclones: Large scale, non-frontal, low pressure systems that form and develop over tropical and subtropical waters. Tropical cyclones possess.

Theoretical Investigations of Magnetic Field Sensitivity of an Area Chirp Array of Atom Interferometers via the Aharonov Bohm Effect Abstract Introduction.

1 University of Petra Faculty of Science & Arts Department of Chemistry Seminar I.R Spectroscopy By Firas Al-ouzeh Supervisor : Nuha I. Swidan Summer 2007.

High resolution studies of the 3 band of methyl fluoride in solid para-H 2 using a quantum cascade laser A.R.W. McKellar *, Asao Mizoguchi, Hideto Kanamori.

Sponsors: National Aeronautics and Space Administration (NASA) NASA Goddard Space Flight Center (GSFC) NASA Goddard Institute for Space Studies (GISS)

Investigation of Decadal Changes in Aerosol and Asthma Sponsors: National Aeronautics and Space Administration (NASA) NASA Goddard Space Flight Center.

Chapter 5 Light: The Cosmic Messenger Light in Everyday Life Power – describes the rate of energy use. 1 Watt = 1 Joule/sec. Spectrum – The component.

Predicting Engine Exhaust Plume Spectral Radiance & Transmittance

Creating Light. Light as a Wave Light (or electromagnetic radiation), can be thought of as either a particle or a wave. As a wave, light has a wavelength,

Solar Weather and Tropical Cyclone Activity Abstract Worldwide tropical cyclone energy and frequency data was obtained from the Unisys Weather database.

Jovi D. Rodriguez (HSS), Christian E. Mejia (UGS), Prof. Steve Greenbaum (PI), Dr. Phil Stallworth (co-PI) Hunter College of the City University of New.

Multi Frequency Laser Driver for Near Infrared Optical Spectroscopy in Biomedical Application Chenpeng Mu Department of Electrical and Computer Engineering,

Sponsors: National Aeronautics and Space Administration (NASA) NASA Goddard Space Flight Center (GSFC) NASA Goddard Institute for Space Studies (GISS)

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,

Sponsors: National Aeronautics and Space Administration (NASA) NASA Goddard Space Flight Center (GSFC) NASA Goddard Institute for Space Studies (GISS)

X-ray Diffraction Study Of New York City Aerosols Particles Junior Nkrumah Summer Program of 2007 CCNY Dr. Jeff Steiner Ph.D. Student Nick Steiner Dr.

Infrared Spectroscopy

Sponsors: National Aeronautics and Space Administration (NASA) NASA Goddard Space Flight Center (GSFC) NASA Goddard Institute for Space Studies (GISS)

High-Resolution Spectroscopy of the ν 8 Band of Methylene Bromide Using a Quantum Cascade Laser-Based Cavity Ringdown Spectrometer Jacob T. Stewart and.

Sponsors: National Aeronautics and Space Administration (NASA) NASA Goddard Space Flight Center (GSFC) NASA Goddard Institute for Space Studies (GISS)

Hardware Sponsors National Aeronautics and Space Administration (NASA) NASA Goddard Space Flight Center (GSFC) NASA Goddard Institute for Space Studies.

Fig. 3 Wind measurements experimental setup Lidar (light detection and ranging) operates using the same concept of microwave RADAR, but it employs a lot.

Field Methods of Monitoring Atmospheric Systems Remote Sensing Copyright © 2006 by DBS.

THE EARTH AS AN OBSERVATORY. Learning Outcomes To understand that the Earth’s atmosphere is transparent to some electromagnetic radiation and opaque to.

The ability to accurately predict climate in the New York metropolitan area has tremendous significance in terms of minimizing potential economic loss.

The Planetary Boundary Layer (PBL) is essentially what it says- ‘a layer that bounds the planet,’ specifically this planet, Earth. The PBL is one of two.

Wu Sponsors: National Aeronautics and Space Administration (NASA) Goddard Space Flight Center (GSFC) Goddard Institute for Space Studies (GISS) New York.

Haifeng Huang and Kevin K. Lehmann

Christian E. Mejia, Christoph F. Weise, Steve Greenbaum, Hunter College Dept. of Physics and Astronomy Shane E. Harton, Columbia University Dept. of Chemical.

Precision Measurement of CO 2 Hotband Transition at 4.3  m Using a Hot Cell PEI-LING LUO, JYUN-YU TIAN, HSHAN-CHEN CHEN, Institute of Photonics Technologies,

Atomic Fingerprints.

N 2 O-Measurement Methods Folie 1 Nitrous Oxide/Laughing Gas Molar mass: 44,013 kg/kmol Gas density at 0°C and 1,013 bar: 1,9781 kg/m³ Gas density in relation.

Sponsors: National Aeronautics and Space Administration (NASA) NASA Goddard Space Flight Center (GSFC) NASA Goddard Institute for Space Studies (GISS)

Mobile Coherent Doppler LIDAR: Proposed Technologies for Scanning, Security and Wireless Communications GSFC at GISS Motivation:  The use of Coherent.

Sponsors: National Aeronautics and Space Administration (NASA) NASA Goddard Space Flight Center (GSFC) NASA Goddard Institute for Space Studies (GISS)

Effects of long term annealing in p-type strip detectors irradiated with neutrons to Φ eq =1·10 16 cm -2, investigated by Edge-TCT V. Cindro 1, G. Kramberger.

NASA ESTO ATIP Laser Sounder for Remotely Measuring Atmospheric CO 2 Concentrations 12/12/01 NASA Goddard - Laser Remote Sensing Branch 1 James B. Abshire,

The minispectrometer is attached to the polarimeter with a fiber optic cable. It measures the intensity at a much wider range of wavelengths—from 350nm.

Electro-Hydrodynamic Filtration (EHD): Dielectrophoresis of SiO 2 and Al 2 O 3 Particles Abstract Previous work has been done to design an electro- hydrodynamic.

LIDAR Atmospheric Remote Sensing Junior Nkrumah Prof. Ben Herman Dept. of Engineering, CCNY Abstract Experimental setup Procedure Materials Results Discussion.

Integration of Multiple Remote Sensing and In Situ Observations to Assess Regional Air Quality Monitoring Forecasts Sponsors: National Aeronautics and.

Ch 10 Pages ; Lecture 24 – Introduction to Spectroscopy.

Solar weather consists of the Sun’s effects upon its planetary system and the solar activities it causes. Solar activities, such as flares and CMEs, form.

Gas sensing Panca Mudji Rahardjo, ST.MT Electrical Engineering - UB.

Introduction Instruments designed and fabricated at the Desert Research Institute, Reno Emphasis on the Integrating Nephelometer for scattering measurements.

Methods Results Conclusion Gathered and analyzed PM 2.5 and AOD data for 2 months (May-June 2011) Looked into patterns and consistency of data – for urban,

Multi-Wavelength LIDAR Observing Aloft Aerosol Plumes in NYC Shifali Reddy, Dr. Yonghua Wu, Dr. Fred Moshary Optical Remote Sensing Lab, The City College.

Infrared IR Sensor Circuit Diagram and Working Principle.

Fourier Transform Infrared (FTIR) Spectrometer Subhashree Mishra ATMS Grad Student, UNR W. P. Arnott Physics, UNR Introduction to Atmospheric Instrumentation.

IMAGES FROM SPACE Unit 4, Lesson 1 Pages

Date of download: 6/1/2016 Copyright © 2016 SPIE. All rights reserved. Schematic view of the pulsed PA spectrometer. Figure Legend: From: Investigation.

How do we know? Spectroscopy: Experimental Evidence.

10fs laser pulse propagation in air Conclusion The properties of femtosecond laser pulse propagation over a long distance (up to 100m) were studied for.

Investigating the relationship between Molar Concentration and Absorbance of Light Beer’s Law Link to spec 20 video.

Jacob T. Stewart Department of Chemistry, Connecticut College

Meteorological Instrumentation and Observations

Presentation transcript:

Atmospheric Concentration Retrieval Using a Quantum Cascade Laser System and Mid-Infrared Technologies Jensen Cheong, Stuyvesant High School Student MIRTHE Laboratory, Department of Electrical Engineering, City College of New York, NY Sponsors: National Aeronautics and Space Administration (NASA) NASA Goddard Space Flight Center (GSFC) NASA Goddard Institute for Space Studies (GISS) NASA New York City Research Initiative (NYCRI) Mid-Infrared Technologies for Health and Environment (MIRTHE) NOAA-CREST Contributors: Jensen Cheong, Stuyvesant High School Student Fred Moshary, Principal Investigator, Dept. of Electrical Engineering CCNY Paul Corrigan Paolo Castillo, Graduate Student, Dept. of Electrical Engineering CCNY Ozone (O 3 ) and Ammonia (NH 3 ) are air pollutants which pose a threat to human beings. They are some of the main causes for lung cancer and respiratory damage. In order to prevent future illnesses we first need to understand what is in our atmosphere and in what quantities they come in. As the world is rapidly industrializing, more pollutants are being released into the air. Quantum Cascade Lasers is a technology of the late 20 th century and is promising in its role in remote sensing. Along with mid-infrared technologies, this experiment aims to accurately retrieve the atmospheric concentration of gases as a first step in humans race to understand our environment. Introduction Why Mid-Infrared Motivation Quantum Cascade Laser Newtonian Telescope References Retrieval Method Experimental Setup Expected Results ConclusionApplications To develop a system using a quantum cascade laser, telescope, and detector to retrieve the atmospheric concentration of gases such as ozone and ammonia which pose a threat to human beings. O 3 and NH 3 have stronger absorption lines at the mid-infrared region as opposed to the near-infrared region. Less light extinction- the scattering of light due to molecules and aerosols. Performs accurately in severe weather or foggy conditions. Semi-conductor laser. Electrons “jump” energy levels and emit photons of light in the process. Once the electron loses energy it quickly is collected and undergoes the process again cm -1 frequency and tuning range up to 5 cm -1 corresponds to the absorption coefficients of O 3 and NH 3 (9.7µm and 9.55 µm respectively). Primary mirror Secondary mirror 3TE IR deter module Right angle mirrors Lens A B C D E F 10.5” 8.5” 36” Ultra-light Aluminum Bread Board Base Carbon Fiber Board Anodized Aluminum Rails This telescope used a primary concave mirror and a secondary convex mirror. Portable. Cassegrain Version of Telescope. This telescope is also mounted with irises and a laser on the top for alignment purposes. Concentration is based on transmission. Absorption is the negative natural log of transmission. We use Beer’s Law with the Absorption to find concentration. QCL Telescope Gas Detector The QCL will be fired into the telescope where the beam will pass through the trace gas and the detector at the end will collect the light. Our technique can be adopted and developed into high powered systems which can measure atmospheric concentration of ozone and ammonia over a large amount of area. We can modify this technique to fit other gases in our atmosphere which may be sensitive to the min- infrared spectrum. Patterns in air quality and pollution may lead us to conclusions and prevention techniques in health and the environment. Our data concludes that the Quantum Cascade Laser System and Mid-Infrared Technologies accurately measured the atmospheric concentration of gases. We can also conclude that the system is ready to be developed through further research and engineering to be used to larger fields. The concentration will match the result from the theoretical setup involving GENSPECT and HITRAN. The concentration should also fit Beer’s Law. Data retrieved will also include Ozone concentrations as well as Ammonia Concentrations. Sample data to the right. Lwin, Maung T. Evaluation of Quantum Cascade Laser Open-path Systems. Thesis. City College of New York, Print. Castillo, Paolo. The Development of Quantum Cascade Laser System for Simultaneous Ozone-Ammonia Retrievals. Web. Unknown. Performance Modeling and Validation of a Chirped Pulse Quantun Cascade Laser for Open-Path Ambient Gas Monitoring. Print