Focal Plane Actuation to Achieve Ultra High Resolution on Suborbital Balloon Payloads Priya Challa Dr. Paul Scowen School of Earth and Space Exploration.

Slides:

Advertisements

Similar presentations

Laser Interferometer Gravitational-wave Detectors: Advancing toward a Global Network Stan Whitcomb LIGO/Caltech ICGC, Goa, 18 December 2011 LIGO-G v1.

Advertisements

CMSC 2006 Orlando Active Alignment System for the LSST William J. Gressler LSST Project National Optical Astronomy Observatory (NOAO) Scott Sandwith New.

Development of Sensitive Long-wave Infrared Detector Arrays for Passively Cooled Space Missions Craig McMurtry, Donald Lee, James Beletic, Chi-Yi A. Chen,

SPITZER SPACE TELESCOPE. The Rationale for Infrared Astronomy reveal cool states of matter reveal cool states of matter explore the hidden Universe.

Heat Mitigation Considerations. Needs Considerations Approach Maintain optimal temperature range required by components Prevent the heat produced by the.

METEOR BACKGROUND This is a foundation project in an ambitious endeavor to provide the RIT research community with a means to conduct near space.

WISE Wide-field Infrared Survey Explorer asteroids Galaxy ULIRGs brown dwarfs WISE will map the sky in infrared light, searching for the nearest and coolest.

Millimetron mision sensitivities and instrumentation concept

Constellation Orion Visible Light Constellation Orion Infrared Light.

Hyperspectral Satellite Imaging Planning a Mission Victor Gardner University of Maryland 2007 AIAA Region 1 Mid-Atlantic Student Conference National Institute.

WEEK20 PHYSICAL SCIENCE VOCABULARY. 1) THERMAL ENERGY Total amount of energy in all of the particles contained in a sample of matter.

IR (Infrared) Night Vision Weapon Detection Security Monitoring Firefighting.

July 2001Zanjan, Iran1 Atmospheric Profilers Marc Sarazin (European Southern Observatory)

4. Telescopes Light gathering power and resolution Optical and radio telescopes Limitations of Earth’s atmosphere and satellite missions. Instruments (prism.

G O D D A R D S P A C E F L I G H T C E N T E R 1 GW Interferometry at Goddard Space Flight Center Jordan Camp NASA / Goddard Space Flight Center Jan.

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.

1 SAE Aerospace Control and Guidance Systems, 2006 Lake Tahoe, NV 1-3 March 2006 Tye Brady The Inertial Stellar Compass (ISC) Tye Brady.

16-2 Heat Transfer. (pages 548–551) 1

1 of 28 A design study of a Cryogenic High Accurate Derotator.

6/11/2012 Building on NEAT concept - M. Gai - INAF-OATo 1 Building on NEAT concept M. Gai – INAF-OATo (a) Extension of science case (b) Payload implementation.

ASTR 3010 Lecture 18 Textbook N/A

Asteroids Image Calibration and Setup Making a Lightcurve What is a Lightcurve? Cole Cook  Physics and Astronomy  University of Wisconsin-Eau Claire.

UTILIZING HIGH ALTITUDE BALLOON PLATFORMS FOR SUPER RESOLUTION IMAGING JACK LIGHTHOLDER MENTOR: DR. TOM SHARP SPACE GRANT SYMPOSIUM APRIL 18 TH, 2015.

First On-sky Test of an Optical Vortex Coronagraph (OVC) Mary Anne Peters Undergraduate research advisor : Laird M. Close Matt Rademacher, Tom Stalcup.

Ch5 Sec2 Convection and the Mantle. Key Concepts How is heat transferred? What causes convection currents? What causes convection currents in Earth’s.

Technologies for Future Far-IR Telescopes and Interferometers Dave Leisawitz, NASA GSFC SPICA SPIRIT CALISTO.

Cryogenics for FPP S. Masi Two inter-related issues: –Cryogenic chain for the focal plane (final temperature 0.1K) –Thermal system to radiatively cool.

SITE PARAMETERS RELEVANT FOR HIGH RESOLUTION IMAGING Marc Sarazin European Southern Observatory.

SNAP Calibration Program Steps to Spectrophotometric Calibration The SNAP (Supernova / Acceleration Probe) mission’s primary science.

Additional Notes. What is the total energy of motion in the molecules of a substance? Thermal Energy.

The measure of the average kinetic energy of the particles in an object Kinetic Energy=speed of molecules The higher the kinetic energy the higher the.

Focal Plane Actuation to Achieve Ultra-High Resolution on Suborbital Balloon Payloads Mentor: Dr. Paul Scowen Graduate Student: Alex Miller Undergraduate.

Magellan Planet Finder Spectrograph Jeff Crane (OCIW) Steve Shectman (OCIW) Paul Butler (DTM)

1 Earth’s Atmosphere & Telescopes Whether light is absorbed by the atmosphere or not depends greatly on its wavelength. Earth’s atmosphere can absorb certain.

Spitzer Space Telescope

HEAT TRANSFER-CONDUCTION CONVECTION AND RADIATION.

Heat Transfer Thermal energy Temperature is the average amount of energy of motion of each particle of a substance. Thermal energy is the total energy.

V - 1 V. System Technology for Large Space Telescopes Session Chair: Juan A. Roman.

1.3 notes  There are 3 types of heat transfer: radiation, conduction, and convection.  The transfer of energy through space is radiation. Sunlight.

Heat Transfer Review. What type of heat transfer does this picture describe? Radiation.

Chapter 3.4 Notes Thermal Rates.  The amount of heat that is transferred per unit time is the heat flow rate  Equation for heat flow rate = heat / time.

Topic: Thermal Energy Essential Question: How is thermal energy transferred?

Heat Transfer Notes. Energy at the Earth’s Surface Remember that only a small percentage of the sun’s energy stays on Earth. Some is reflected back out.

Standards 3: Thermal Energy How Heat Moves  How heat energy transfers through solid.  By direct contact from HOT objects to COLD objects.

Thermal Energy & Heat.

Convection Currents and the Mantle. The Heat of the Earth Earth’s outer core is nearly as hot as the surface of the sun.

Master Thesis Presentation – Bart Festen

Heat Transfer Notes.

First clues on ET payload sensing and control

Heat Transfer Conduction Convection Radiation.

Mechanical Design of the Fabry-Perot Spectrometer for Balloon Flight

Warm-Up 11/13/12 COPY and ANSWER the following questions on p. 38 in your INB. (Use pgs in your textbook for help) What is the difference between.

Heat Transfer Notes.

Chapter Section Convection and the Mantle

Heat Transfer Notes.

Heat Transfer Notes.

Natural Sciences Grade 7

4. Telescopes Light gathering power and resolution

Heat Transfer Vocabulary

Convection Currents – Talk #1

By: Virginia Wyckoff & Algeria Stevenson

Heat Transfer Notes.

THERMAL CONTROL SYSTEM

CHEOPS - CHaracterizing ExOPlanet Satellite

Geoscience Text Images & Small Group Discussion

Presentation transcript:

Focal Plane Actuation to Achieve Ultra High Resolution on Suborbital Balloon Payloads Priya Challa Dr. Paul Scowen School of Earth and Space Exploration Arizona State University April 12, 2014

Introduction Suborbital balloon telescopes can provide image quality that is comparable to that of space based telescopes. Their angular resolution is limited by the interference of small scale jitter from payload vibrations and differential heating. Source: nasa.gov

Objectives This project aims to counteract the jitter by actuating the focal plane and reducing the total pointing error for the telescope+camera to within 0.1 arcseconds. The goal is to reduce the residual physical focal plane motion to less than 6.5 μm so that the jitter induced spread in the point spread function is contained within one pixel.

Motion of CCD during exposure Pixel Array Illuminated pixels Without jitter mitigation With jitter mitigation

Methods The focal plane will be actuated using an off-the- shelf hexapod, which offers six degree-of- freedom (DOF) motion control.

Methods The CCD must be cooled to cryogenic temperatures while the hexapod has only been designed to operate at room temperature.The CCD must be cooled to cryogenic temperatures while the hexapod has only been designed to operate at room temperature. Thermal isolation is achieved by innovative design choices within the dewar mount.Thermal isolation is achieved by innovative design choices within the dewar mount.

Thermal Isolation Convection is eliminated by the introduction of a vacuum environment.Convection is eliminated by the introduction of a vacuum environment. A layer of G10 fiberglass prevents conductive heat transfer.A layer of G10 fiberglass prevents conductive heat transfer. Radiation shielding is used to prevent heat from the hexapod from interfering with the CCD.Radiation shielding is used to prevent heat from the hexapod from interfering with the CCD.

Experimental Setup A similarly actuated target will be driven using the same jitter from a past balloon mission.A similarly actuated target will be driven using the same jitter from a past balloon mission.

Experimental Setup To verify that the hexapod system works, the mounted CCD must provide a clear image of the target.To verify that the hexapod system works, the mounted CCD must provide a clear image of the target.

Applications Planetary SciencePlanetary Science Near Earth Object (NEO) detectionNear Earth Object (NEO) detection Adaptive OpticsAdaptive Optics

Planetary Science Provides a platform for long term observation of planets. Source: hubblesite.org

NEO detection Current NEO surveys are mostly ground based operations.Current NEO surveys are mostly ground based operations. Balloon telescopes can be flown at almost any altitude and offer comprehensive coverage.Balloon telescopes can be flown at almost any altitude and offer comprehensive coverage. Source: hubblesite.org

Adaptive Optics This system could provide a portable adaptive optics system that can be easily transferred between ground based observatories.This system could provide a portable adaptive optics system that can be easily transferred between ground based observatories. Source: jpl.nasa.gov

Questions?