interstellar space not as empty as you might think

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Space Not as Empty as You Might Think Dr. Andrew Fox Space Telescope Science Institute/European Space Agency Hubble Science Briefing April 5 2012

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Interstellar Space Not as Empty as You Might Think. Dr. Andrew Fox Space Telescope Science Institute/European Space Agency Hubble Science Briefing April 5 2012. What is a galaxy made of?. Stars Dark Matter Interstellar Gas & Dust. Presentation Outline. INTERSTELLAR MATTER - PowerPoint PPT Presentation

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Page 1: Interstellar Space Not as Empty as You Might Think

Interstellar SpaceNot as Empty as You Might

Think

Dr. Andrew FoxSpace Telescope Science Institute/European Space Agency

Hubble Science BriefingApril 5 2012

Page 2: Interstellar Space Not as Empty as You Might Think

What is a galaxy made of?

22

Stars

Dark Matter

Interstellar Gas & Dust

Page 3: Interstellar Space Not as Empty as You Might Think

Presentation OutlineINTERSTELLAR MATTER

- how do we detect it?- what forms does it take, and what’s its composition?

- how empty is interstellar space (density)?- effects on starlight passing through it (reddening)

- importance to galaxies overall (role in galactic evolution)

Andrew Fox, Hubble Science Briefing, April 20123

Page 4: Interstellar Space Not as Empty as You Might Think

A Historical Note….

• 1626 First recorded use of the word “interstellar”, by Francis Bacon:

“The Interstellar Skie.. hath .. so much Affinity with the Starre, that there is a Rotation of that, as well as of the Starre.”

• 1674 Suggestion that interstellar space was not empty, by Robert Boyle:

“The inter-stellar part of heaven, which several of the modern Epicureans would have to be empty.”

Andrew Fox, Hubble Science Briefing, April 20124

Page 5: Interstellar Space Not as Empty as You Might Think

Part I: Interstellar clouds

Andrew Fox, Hubble Science Briefing, April 20125

The easiest way to see interstellar matter is to observe the dark clouds along the Milky Way

Page 6: Interstellar Space Not as Empty as You Might Think

Band of light: unresolved stars

Dark clouds of interstellar gas & dust

Part I: Interstellar clouds

Andrew Fox, Hubble Science Briefing, April 20126

The easiest way to see interstellar matter is to observe the dark clouds along the Milky Way

Page 7: Interstellar Space Not as Empty as You Might Think

Band of light: unresolved stars

Dark clouds of interstellar gas & dust

Part I: Interstellar clouds

• Interstellar clouds often called nebulae• Many types of nebulae exist (emission, reflection, dark, planetary)

Andrew Fox, Hubble Science Briefing, April 20127

The easiest way to see interstellar matter is to observe the dark clouds along the Milky Way

Page 8: Interstellar Space Not as Empty as You Might Think

Dark CloudsBarnard 68 in Ophiuchus

Why is it dark?

An empty region of space? Or a dense interstellar cloud blocking the light from the background stars?(the latter)

Andrew Fox, Hubble Science Briefing, April 20128

Page 9: Interstellar Space Not as Empty as You Might Think

Dark CloudsCoal Sack (next to the Southern Cross)

“visible” with naked eye

Really seeing its shadow (absence of light from background stars)

Andrew Fox, Hubble Science Briefing, April 20129

Page 10: Interstellar Space Not as Empty as You Might Think

Emission NebulaEagle Nebula (M 16)“Pillars of Creation”

Clouds of gas and dust being heated and sculpted by radiation from nearby young star cluster

Traces regions of star formation

Andrew Fox, Hubble Science Briefing, April 201210

Page 11: Interstellar Space Not as Empty as You Might Think

Reflection NebulaIC 349

Shows reflected light from a nearby star, not light emitted by the nebula itself

As if the star is shining a flashlight on its surroundings

Andrew Fox, Hubble Science Briefing, April 201211

Page 12: Interstellar Space Not as Empty as You Might Think

Planetary NebulaEskimo Nebula

Final state of solar-mass star (after it runs out of fuel)

Gas irradiated by hot white dwarf star in centre

Thought to be the eventual fate of the Sun (in another 5 billion years)

Andrew Fox, Hubble Science Briefing, April 201212

Page 13: Interstellar Space Not as Empty as You Might Think

Andrew Fox, Hubble Science Briefing, April 201213

Page 14: Interstellar Space Not as Empty as You Might Think

Supernova RemnantName: N63A

Final state of stars many times more massive than the Sun

Leftover material from supernova explosion

Andrew Fox, Hubble Science Briefing, April 201214

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Part II: Diffuse interstellar gas (not seen with naked eye)

Andrew Fox, Hubble Science Briefing, April 201215

Nebulae make up a tiny fraction of the volume of interstellar space.

Diffuse gas exists between the nebulae, but you need a spectrograph to see it…

Page 16: Interstellar Space Not as Empty as You Might Think

Spectroscopy

Andrew Fox, Hubble Science Briefing, April 201216

Modern telescopes use diffraction gratings instead of prisms to split up the light

Page 17: Interstellar Space Not as Empty as You Might Think

Spectroscopy: The Science of Rainbows

Pattern of lines in stellar spectrum indicates composition and velocity of the star and the interstellar gas between the star and us.

Each element has its own set of spectral lines (“fingerprints”). If the star is moving relative to the Earth, those lines will move by the Doppler effect

Andrew Fox, Hubble Science Briefing, April 201217

Page 18: Interstellar Space Not as Empty as You Might Think

Spectroscopic Binaries

Andrew Fox, Hubble Science Briefing, April 201218

Spectroscopic binary has two sets of lines (one from each star) movingback and forth. Astronomers can measure the period and amplitude of the shift.

Page 19: Interstellar Space Not as Empty as You Might Think

• In 1904 German astronomer Johannes Hartmann took a spectrum of the spectroscopic binary star delta Orionis (Mintaka)

• He found three sets of lines, two moving and one staying still.

• “these sharp lines probably did not have their origin in the [star] itself, but in a nebulous mass lying in the line of sight”

Andrew Fox, Hubble Science Briefing, April 201219

Telescope with Diffuse Interstellar Cloud Binary Starspectrograph Containing Ionized Calcium Delta Orionis

(spectral lines stay same color) (lines become redder and bluer)

Page 20: Interstellar Space Not as Empty as You Might Think

Multiple interstellar clouds can exist along a line of sight through the Galaxy

Andrew Fox, Hubble Science Briefing, April 201220courtesy Bart Wakker, UW-

Madison

Page 21: Interstellar Space Not as Empty as You Might Think

In a hydrogen atom, the proton and electron normally spin in the same direction.

Occasionally the electron flips to spin the other direction. Happens only about once every 100 million years for each atom.

When the electron flips it emits a radio wave with a frequency of 1420 MHz and a wavelength of 21 cm (was predicted in 1944 by Dutch astronomer Hendrik van de Hulst)

21 cm emission from interstellar space first detected in 1951

The 21 cm (radio) line of neutral hydrogenHydrogen atom

Radio telescope

Andrew Fox, Hubble Science Briefing, April 201221

Page 22: Interstellar Space Not as Empty as You Might Think

All-sky 21 cm map of neutral hydrogen (Galactic coordinates)

Galactic disk of neutral hydrogen, thickness of several hundred parsecs → The Milky Way is full of diffuse interstellar gas radiating radio waves

Andrew Fox, Hubble Science Briefing, April 201222

Page 23: Interstellar Space Not as Empty as You Might Think

Galactic disk of ionized hydrogen, thickness of ~1000 parsecs Andrew Fox, Hubble Science

Briefing, April 201223

courtesy Matt Haffner

All-sky 21 cm map of ionized hydrogen (Galactic coordinates)

Page 24: Interstellar Space Not as Empty as You Might Think

How empty is the Diffuse Interstellar Medium?

Object Density (particles per cm3)Water ~1022 (H2O molecules)Earth’s atmosphere 5 x 1019 (mostly N2 & O2

molecules)Vacuum Cleaner ~1019

Incandescent Light Bulb ~1014-1015

Best vacuum ever produced on Earth

~105-107 (cryopumped chamber)

Giant Molecular Clouds ~102-106 (mostly molecular hydrogen)

Diffuse Interstellar Medium ~1 (mostly atomic and ionized hydrogen)

Diffuse Intergalactic Medium ~10-5

Andrew Fox, Hubble Science Briefing, April 201224

The diffuse interstellar medium is about 50 million trillion times less dense than the air we breathe

Page 25: Interstellar Space Not as Empty as You Might Think

Part III: Interstellar dust

Andrew Fox, Hubble Science Briefing, April 201225

• “Dust” means small solid particles (silicates and carbonate chemicals), rather than gaseous atoms or molecules

• Dust makes up only about 1% of the mass of interstellar matter (the rest is gas)

• Dust causes interstellar extinction (scattering of starlight out of the beam)

• Dust changes the colour of starlight passing through it (interstellar reddening)

Page 26: Interstellar Space Not as Empty as You Might Think

The Blue-Sky EffectRed light passes straight through Earth’s atmosphere

Blue light is scattered toward us

Not to Scale

EARTH

ATMOSPHERE

Sun

Here the scattering is caused by molecules in the Earth’s atmosphere

Andrew Fox, Hubble Science Briefing, April 201226

Page 27: Interstellar Space Not as Empty as You Might Think

Red light passes straight throughBlue light is

scattered out of beam

INTERSTELLAR CLOUD CONTAINING DUST

• Here the scattering is caused by interstellar dust grains

• The more interstellar gas along the sight line, the more reddening occurs

• Distant stars appear redder than nearby ones

• Astronomers have to correct (de-redden) a stellar spectrum to account for this and to derive the star’s true color.

STAR

OBSERVER

Interstellar Extinction (Blue Sky Effect viewed from different angle)

Andrew Fox, Hubble Science Briefing, April 201227

Page 28: Interstellar Space Not as Empty as You Might Think

Interstellar dust

Andrew Fox, Hubble Science Briefing, April 201228

• As well as scattering visible light, dust emits infra-red and microwave radiation

Horsehead Nebula (Barnard 33) at different wavelengths

• Interstellar clouds are often opaque to optical (visible) light but transparent to infrared and radio light

• These wavelengths open new windows to studying interstellar gas

Page 29: Interstellar Space Not as Empty as You Might Think

Planck is a microwave satellite designed to measure the leftover radiation from the Big Bang.To Planck, interstellar dust is a foreground source of contamination (noise).Andrew Fox, Hubble Science

Briefing, April 201229

Page 30: Interstellar Space Not as Empty as You Might Think

Andrew Fox, Hubble Science Briefing, April 201230

Page 31: Interstellar Space Not as Empty as You Might Think

Andrew Fox, Hubble Science Briefing, April 201231

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NASA Press ReleaseJune 2011

• Centaurus A (radio galaxy with active galactic nucleus)

• Imaged with Hubble’s Wide Field Camera 3

• Numerous dust lanes

• Star formation in red

(H-alpha emission) Andrew Fox, Hubble Science

Briefing, April 201232

Page 33: Interstellar Space Not as Empty as You Might Think

Interstellar dust in Andromeda (M31)

Andrew Fox, Hubble Science Briefing, April 201233

Infra-red (IR) emission maps are used to trace the interstellar dust in other galaxies

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Part IV: Interstellar gas and importance to galaxy evolution

Interstellar clouds are the start and end points of a star’s life.

Dying stars release heavy elements back into interstellar space, which becomes richer and richer in heavy elements over time (its metallicity goes up)

All the heavy elements in the Earth were made in stars, then spent time in interstellar space before the Solar System formed

INTERSTELLAR GAS

Andrew Fox, Hubble Science Briefing, April 201234

Page 35: Interstellar Space Not as Empty as You Might Think

- contains many different types of nebulae

- contains diffuse gas and dust

- can be studied with spectroscopy at many wavelengths

- changes color of starlight passing through it

- plays a key part in the life cycle of galaxies

Summary: Interstellar space ….. is not completely empty. It:

Andrew Fox, Hubble Science Briefing, April 201235

Page 36: Interstellar Space Not as Empty as You Might Think

Questions?

Andrew Fox, Hubble Science Briefing, April 201236

Page 37: Interstellar Space Not as Empty as You Might Think

ESA Video: Andromeda (M31) at multiple wavelengths:

http://www.esa.int/esa-mmg/mmg.pl?type=V&single=y&mission=Herschel&start=1&size=b

Andrew Fox, Hubble Science Briefing, April 201237