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Planck Visualization Project Planck Visualization Project
Jatila van der Veen, Ph.D. Education Coordinator for Planck, NASA/JPL
Visiting Project Scientist, Department of PhysicsLecturer, College of Creative Studies
University of California, Santa Barbara
Jatila van der Veen, Ph.D. Education Coordinator for Planck, NASA/JPL
Visiting Project Scientist, Department of PhysicsLecturer, College of Creative Studies
University of California, Santa Barbara
@ dotAstronomy #2 ~ Leiden, 2009 @ dotAstronomy #2 ~ Leiden, 2009
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Purdue-Calumet, VisLabLead Application Developers:
Jerry Dekker, Lead Programmer John “Jack” Moreland,
Visualization Specialist
Purdue University:Laura Cayon
University of California, Santa Barbara:Department of PhysicsJatila van der Veen (formerly at Purdue-Calumet)
Philip Lubin
UCSB AlloSphereJoAnn Kuchera-Morin, AlloSphere
DirectorLead Application Developers:
Wesley Smith and Basak Alper,Matt Wright, Media Systems Engineer
Lead P.I., Planck Visualization Project: Jatila van der VeenPlanck Project Scientist and Lead Principal Investigator at NASA/JPL:
Charles R. Lawrence
Planck Visualization Project Development TeamPlanck Visualization Project Development Team
Photo: Herschel-Planck launch Photo credit: Charles. R. Lawrence, NASA/JPL
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Planck is a Mission led by the European Space Agency, with significant participation by NASA.
Planck’s purpose is to map the Cosmic Microwave Background radiation (or CMB)- the oldest light we can detect - with a sensitivity of a few millionths of a degree Kelvin,
and an angular resolution as fine as 5 arc minutes on the sky.
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1989
2000
May 14, 2009
Planck is the third generation of satellite to map the entire sky in microwave and infrared wavelengths, after COBE and WMAP, but with unprecedented detail.
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• Explain the importance of this mission in ways that the public can understand, and make them EXCITED about it even before the data are finished being collected!
• Explain why we need such sensitive instruments
• Explain how we can derive so much information about the universe from such obscure measurements*
(i.e., we don’t have any pretty pictures of galaxies!)
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arc-minute temperature map
angular power spectrum
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What the @#*& is a power spectrum? What the @#*& is a power spectrum? And how can they tell so much from that one graph?And how can they tell so much from that one graph?
That’s a map of temperature? How can you see temperature?That’s a map of temperature? How can you see temperature?
Yeah, and I thought that outer space was black!Yeah, and I thought that outer space was black!
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8
The CMB is the oldest light we can observe,
coming to us from the time when the universe first became cool enough so as to
be transparent to electromagnetic radiation, approximately 380,000 years
after the Big Bang.
Before this time the universe was too hot and bright to see through, and photons could not travel very far before being scattered by charged particles – free
electrons and protons.
What is the Cosmic Microwave Background, or CMB? A ‘geologic column’
of the universe
Big Bang
CMB origin
First galaxies
13.7 by
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Understanding the minute temperature fluctuations in the CMB is important because it tells us about variations in density in the
early universe which gave rise to the large scale structure we see
in the universe today.
Images courtesy of Professor Max Tegmark, MIT
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HFI feed hornarray
LFI feed horn array
HFI (High frequency Instrument): an array of microscopic temperature sensors called spider web bolometers, cooled to 0.1 K
LFI (Low frequency Instrument): an array of radio receivers using high electron mobility transistor mixers, cooled to 20 K.
In order to make such determinations, Planck has two sets of ultra-sensitive detectors, which measure the temperature of space in 9 different frequency bands, with a sensitivity of a few millionths of a degree! This is why some of them are kept at temperatures colder than space itself !
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Planck’s resolution is said to be equivalent to being able to resolve a bacterium on top of a bowling ball, and its sensitivity has been compared with detecting the heat output of a rabbit in space, at the distance of the Moon, by a person standing next
to the detector on Earth (neglecting atmospheric attenuations).
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Web pages, press releases,videos, podcasts, vodcasts, animations, etc...
Animation by Christophe Carreau, ESTECMusic by Richard Strauss
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... but which also run on PCs, and which will run on Macs
1. Interactive Simulation of the Planck Mission Designed for Virtual Immersive Spaces
2. Understanding how we derive information from the Power Spectrum of the CMB through Music
3. Visualization and Sonification of the CMB and universe prior to recombination in Virtual ImmersiveSpaces
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Controlled from a flight simulator screen ...
Planck InteractiveImmersive Simulation
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...the user can explore the missionfrom launch...
to orbital insertion...
to data gathering operations...
from any vantage point in the solar system.
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3-D option for the PC
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Hi-tech visualization facilities:• VR facilities• Planetaria • Virtual Classrooms
Museums and Science Centers• Thousands of potential sites!• DVDs for Museums and mass dist. • Kiosk interactive display • Passive viewing as movie
Popular Culture • iPhone application • Google Universe• Screen savers
Available in a variety of 3-D technologies, from simple anaglyph to high-tech varieties.
Web Distribution • Download, single computer • Interactive served application • Computers in classrooms
Currently still in development. If you want a copy, ask me or send email to [email protected].
Demo/play session after lunch
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Understanding how we extract information about the Universe from the Power Spectrum of the CMB
through Music
COBE WMAP Planck primordial
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13.7 billion years of time delay!
a few milliseconds of time delay
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ρρ∆
∝∆TT
The variations in temperature that we observe in the CMB ...
...tell us about variations in density in the early universe...
Variations in density :Dark matter creates gravity
wellsBaryons fall in
Radiation pressure pushes out
animation by Wayne Hu, University of Chicago
HARMONIC OSCILLATIONS
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slide adapted with permission from Mark Whittle, University of Virginia
Pressure waves in a fluid are
mechanical waves, just like sound waves that
we can hear!
So we can use
techniques from MUSIC
to analyze the CMB.
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Resonating systems have a fundamental and higher harmonicswhich are the frequenciesat which they naturally vibrate.
The wavelength of the fundamentalis determined by thesize of the instrumentand the speed of sound waves thattravel from one end to the other.
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The larger the resonating system, the lower the tones it can produce.
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wavelength
Looks and sounds different when played on a clarinet:
Pure tone played on a computer with a frequency of 440 Hz:
A power spectrum tells you what frequencies are present in a sound.
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2510 Hz 100 Hz 1,000 Hz~420 Hz
Source: bison.ph.bham.ac.uk/
Systems occurring in Nature also have natural resonant frequencies, such as the Sun, but with MUCH longer wavelengths, here scaled to the human hearing range.
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WMAP
Cl
l 1 10 100 1000
Cl
l 1 10 100 1000
Cl
l 1 10 100 1000
COBE
very large angular scale
The CMB represents the last time that light scattered off the acoustic waves of the early universe, thus the power spectrum of the CMB contains the information that can tell us about the characteristic properties of the Universe...
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Just as the power spectrum of the last dying chord ( ~ 2 ms )
... contains the harmonics that tell youthe characteristic properties of this instrument.
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28
20
correspond to the fundamental and higher harmonics in the power spectrum of the CMB.
Anisotropies of 20 and smaller in the CMB
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mm 21138 1008.2sec102.1sec
1073.1 ×=×××
Converting meters to light years, we get:
lylymm 000,220/1046.91008.2 1421 ≅÷÷×
longest wavelength in CMB = wave speed x age of universe at recombination
Could any living creature hear a sound wave with a wavelength of 220,000 light years?
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frequency = wave speed / wavelength
1073.1 ×
Hzm
m13
21sec
8
1044.11008.21073.1 −×=××
The lowest frequency that humans can hear is around 20 Hz, slightly lower than the lowest note on a piano (27 Hz).
So the answer is NO. The lowest note of the universe is 20/1.44 x 10-13 , or 1.88 x 1014 times LOWER than the lowest note humans can hear, or
47 octaves below the lowest note on a grand piano!
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Scaled up by around 50 octaves, the CMB would sound something like this:
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Figure adapted from website of Mark Whittle, University of Virginia
Am
plitu
de o
f tem
pera
ture
ani
sotr
opie
s sc
aled
to u
nits
of m
icro
-Kel
vin2
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Scaled up into the range of human hearing, and cleaned up using Fourier analysis, we can make out the fundamental and higher harmonics of the CMB:
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Changing the properties of the universe would give it a differentpower spectrum...which would sound different.
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Interactive, Immersive Simulations of the Early Universe based on the Power Spectrum
of the CMB
Under development at UC Santa Barbara PIs: Jatila van der Veen, Philip Lubin,
Department of Physics; JoAnn Kuchera-Morin, Director of AlloSphereLead Programmers: Wesley Smith, Basak AlperMatt Wright, project manager of the AlloSphere
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We are working on a way to model the CMB and evolution of the universe prior to recombination in the AlloSphere facility at UCSB. When completed, our visualizations will be made available to planetaria and any VR facilities that request them, and for individual computers.
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Ω b
CMBFAST
power spectrum
temperature map
project in AlloSphere
map in Sound and Visualization
work backwards
to Big Bang
User can change parameters within a pre-determined range, then fly around insidethe universe before recombination!
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What the @#*& a power spectrum is... What the @#*& a power spectrum is... And how they can tell so much from that one graph...And how they can tell so much from that one graph...
And what that multicolored map of space means...And what that multicolored map of space means...
But I’m still not sure of the meaning of Life...
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All of these are Works In Progress.
Informal session this afternoon for anyone who wants to play with the Planck Mission Simulation
and play with more sounds and power spectra!
Slides will be on the dotAstronomy website in pdf format.Email me if you want the complete set of sound files:
[email protected]/jatilavdv