Presentation is loading. Please wait.

Presentation is loading. Please wait.

HUBBLE Past …future?. NASA’s Great Observatories “an astronomical Mount Rushmore” Spitzer Chandra Compton Hubble.

Published byHenry Henderson Modified over 8 years ago

Similar presentations

Presentation on theme: "HUBBLE Past …future?. NASA’s Great Observatories “an astronomical Mount Rushmore” Spitzer Chandra Compton Hubble."— Presentation transcript:

1 HUBBLE Past …future?

2 NASA’s Great Observatories “an astronomical Mount Rushmore” Spitzer Chandra Compton Hubble

3 Gains in orbit No atmospheric blurring Wider accessible wavelength range Instrumental stability No clouds/daylight (timing)

4 Some HST Science highlights Structures of distant galaxies

5 Some HST Science highlights Structures of distant galaxies Hubble constant from Cepheid variable stars

6 Some HST Science highlights Structures of distant galaxies Hubble constant from Cepheid variable stars Black holes in (almost all) galactic nuclei

7 Some HST Science highlights Structures of distant galaxies Hubble constant from Cepheid variable stars Black holes in (almost all) galactic nuclei Protoplanetary material near young stars

8 Some HST Science highlights Structures of distant galaxies Hubble constant from Cepheid variable stars Black holes in (almost all) galactic nuclei Protoplanetary material near young stars Gravitational lenses

9 Some HST Science highlights Structures of distant galaxies Hubble constant from Cepheid variable stars Black holes in (almost all) galactic nuclei Protoplanetary material near young stars Gravitational lenses Intergalactic gas and its history Stuff scattered all the way through the textbooks

10 Instrument history 1990: FGS HSP FOS GHRS FOC WF/PC 1993: FGS CoSTAR FOS GHRS FOC WFPC2 1997: FGS CoSTAR NICMOS STIS FOC WFPC2 2002: FGS CoSTAR NICMOS STIS ACS WFPC2 200? COS, WFC3

11 Hubble status, Sept. 2004 Space Telescope Imaging Spectrograph dead (only high-res/small-region spectrometer) 3 of 6 gyros (RSUs) functional (3 needed for full tracking, some observations with 2) Battery capacity decreasing (will be useless circa 2010) Estimated 50% failure time on above: 2007 Instrument/transmitter power cycling now reduced by rescheduling/eliminating parallel imaging

12 Options Shuttle SM4 (O’Keefe ruled out, CAIB concerns) Robotic mission (new tech, some changeouts very risky) Replace the whole thing (HOP proposal to refly COS/WFC3)

13 Shuttle? “Safe haven” would mean standby orbiter Limited remaining flights earmarked to ISS Need for independent orbital inspection Victim of the Vision? Orbital mechanics: 28.5-degree inclination, getting heaviest payloads highest from Cape Canaveral, restricts options now

14 Servicing non-options Prohibitive energy requirements to co-orbit with ISS in reach of astronauts 28-degree orbit out of reach from Baikonur (ITAR restrictions aside) Ion thrusters would take the estimated telescope lifetime for orbit change ~2015 estimated deorbit without boosting

15 Robotics/teleoperation? Canadian ISS arm not required yet – “spare” Some tasks straightforward, actually robotic plus teleoperations mission Double big/small arm Robot docking/deorbit committed already Tests make this look possible 2-piece spacecraft, Delta/Atlas launch 2007 a challenge; budget is ballooning Political aspects re pinning blame

16

17

18 Solar array connectors

19 Replace capabilities? Technology since 1980: lots cheaper. Thin flexible mirrors, lightweight structures, stabilize mirrors rather than structure… Unique access to optical/UV range Plan on table to fly 2.4m mirror with existing HST instruments (Hubble Origins Probe or HOP); could be as low as $250M. Need to decide who gets the instruments!

20 Next up: JWST

21 James Webb Space Telescope Launch 2011, on Ariane V, to L2 region 6.5m deployable primary 0.6-20 microns (far red to mid-IR) Key problems: formation of galaxies, first stars, maybe planets Spacecraft weight/mirror area ratio roughly that of Hubble mirror alone!

22 And at other wavelengths… Chandra and its complement XMM-Newton

23 Across the spectrum - now FarIR MidIR nearIR opt UV farUV X-ray gamma Spitzer Hubble Chandra GALEX FUSE INTEGRAL WMAP

24 Multispectral Greatest Hits Intergalactic gas Starburst galaxies High-redshift galaxies Evaporating planets Protoplanetary disks Growth of black holes Complexity of stardeath Gamma-ray bursts Supernova chemistry Quasar jets Stripped galaxies Pregalactic lumps Galaxy history Relativistic jets

25 A panchromatic view - spiral galaxy M81 ROSAT GALEX Kitt Peak Spitzer VLA

26 Across the spectrum - soon FarIR MidIR nearIR opt UV farUV X-ray gamma Spitzer Hubble? Chandra and XMM GALEX? FUSE? INTEGRAL Planck Herschel Swift SIM TPF? JWST

27 A new Universe to explore The full electromagnetic spectrum Open international competition for observations Public data archives (without mailing tapes!) The beginnings of the Virtual Observatory But astronomers think about facilities differently from NASA and ESA…

Download ppt "HUBBLE Past …future?. NASA’s Great Observatories “an astronomical Mount Rushmore” Spitzer Chandra Compton Hubble."

Similar presentations

Chandra X-ray Observatory Your Name Title Date CHANDRA X-RAY OBSERVATORY Presentation to X.

Chandra X-ray Observatory Your Name Title Date CHANDRA X-RAY OBSERVATORY Presentation to X.
The Great Space Telescopes A Deeper Look Into Space Presented By Stevan Akerley 3/31, Rescheduled to April 29, 2014 National Space Society Space Ambassador.

The Great Space Telescopes A Deeper Look Into Space Presented By Stevan Akerley 3/31, Rescheduled to April 29, 2014 National Space Society Space Ambassador.
The HST-JWST Transition Plan End-of-life for HST Implementation of JWST Steven Beckwith Space Telescope Science Institute.

The HST-JWST Transition Plan End-of-life for HST Implementation of JWST Steven Beckwith Space Telescope Science Institute.
The suitability of optical instruments

The suitability of optical instruments
Return to Hubble: Servicing Mission 4 Dr. Frank Summers Space Telescope Science Institute April 2, 2009.

Return to Hubble: Servicing Mission 4 Dr. Frank Summers Space Telescope Science Institute April 2, 2009.
National College RomaniaCassiopeiae Team Made by Alexandra Birladeanu and Gina Ioana Ursu.

National College RomaniaCassiopeiae Team Made by Alexandra Birladeanu and Gina Ioana Ursu.
Telescopes: The Tools of Astronomy Types of Telescopes –Land Based –Space Based Infrared Visible Ultraviolet X-ray Gamma Hubble Space Telescope.

Telescopes: The Tools of Astronomy Types of Telescopes –Land Based –Space Based Infrared Visible Ultraviolet X-ray Gamma Hubble Space Telescope.
A Galaxy Revealed in Multiple Wavelengths 0 Topic: Multiwavelength observations Concepts: Infrared observations, X-ray observations, Optical observations,

A Galaxy Revealed in Multiple Wavelengths 0 Topic: Multiwavelength observations Concepts: Infrared observations, X-ray observations, Optical observations,
Infrared Astronomy The image above is an aitoff projection of the sky centered on the center of the Milky Way Galaxy (in the constellation Sagittarius).

Infrared Astronomy The image above is an aitoff projection of the sky centered on the center of the Milky Way Galaxy (in the constellation Sagittarius).
Telescopes and Spacecraft Astronomy 311 Professor Lee Carkner Lecture 7.

Telescopes and Spacecraft Astronomy 311 Professor Lee Carkner Lecture 7.
Ch Viewing the Universe

Ch Viewing the Universe
The Universe in the Infrared What is the Spitzer Space Telescope, and how does it work? Funded by NASA’s Spitzer Science Center Images courtesy NASA/JPL.

The Universe in the Infrared What is the Spitzer Space Telescope, and how does it work? Funded by NASA’s Spitzer Science Center Images courtesy NASA/JPL.
Hubble 4-D: The telescope in space and time A conversation with Ed Weiler on the origins of servicing.

Hubble 4-D: The telescope in space and time A conversation with Ed Weiler on the origins of servicing.
A student project. What is a space telescope?  A space telescope is a telescope that orbits around Earth in space.  Like other telescopes they take.

A student project. What is a space telescope?  A space telescope is a telescope that orbits around Earth in space.  Like other telescopes they take.
STUDY HALL Sit quietly in your assigned seats. Warm Up 1. Think about 3 things you do EVERYDAY! 2. Describe how you would do these things in space? Would.

STUDY HALL Sit quietly in your assigned seats. Warm Up 1. Think about 3 things you do EVERYDAY! 2. Describe how you would do these things in space? Would.
Introduction of Space Technology. The James Webb Space Telescope The James Webb Space Telescope was previously known as the Next Generation Space Telescope.

Introduction of Space Technology. The James Webb Space Telescope The James Webb Space Telescope was previously known as the Next Generation Space Telescope.
Hubble Space Telescope Advanced Space Academy Fall 2003 USSRC Proprietary.

Hubble Space Telescope Advanced Space Academy Fall 2003 USSRC Proprietary.
The Hubble Space Telescope and Next Generation Space Telescope Duncan A. Forbes Centre for Astrophysics & Supercomputing, Swinburne University.

The Hubble Space Telescope and Next Generation Space Telescope Duncan A. Forbes Centre for Astrophysics & Supercomputing, Swinburne University.
LIVE INTERACTIVE YOUR DESKTOP January 28, 2010 NASA/NSTA Web Seminar Series How Telescopes Have Changed Our View of the Universe Hubble’s Universe:

LIVE INTERACTIVE YOUR DESKTOP January 28, 2010 NASA/NSTA Web Seminar Series How Telescopes Have Changed Our View of the Universe Hubble’s Universe:
Infrared Telescopes 1.

Infrared Telescopes 1.

Similar presentations

Ads by Google