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Big Bang Timeline10-45 sec (1032K) We have no physics to describe conditions at
these large energy densities and high temp.10-35 sec (1027 K) Inflation begins, Quark-Antiquark Freezeout starts
(1,000,000,001 quarks to every 1,000,000,000 antiquark)
10-32 sec (1025 K) Inflation ended, present-day observable Universe was ~10 cm across
10-5 sec (1013 K) Protons and neutrons form (no more free quarks)1-15 min (108 K) First elements (2H and 4He nuclei) form380,000 yr (3000 K) Atoms form from nuclei and electrons100 Myr (10 K) Stars, galaxies, and planets begin to form. We
think the first stars ionized the Universe and created heavy elements. Then star clusters and dwarf galaxies formed from later generations of stars. These star groups merged together to form larger and larger galaxies.
10 Gyr (3 K) Present Universe, expanding exponentially
1978 Nobel Prize in Physics: discovery of Cosmic Background Radiation(CBR), the “echo” of the Big Bang
2011 Nobel Prize in Physics : The discovery of the accelerating Universe
Modified from a presentation by:
Heidi Newberg
Rensselaer Polytechnic Institute
Saul Perlmutter Brian Schmidt Adam Riess
With Newtonian physics, it is impossible to predict the future of the UniverseGravitational attraction should pull all the galaxies together
Einstein’s Field Equations
Stuff describing the curvature of space(time), otherwise thought of as the Force of Gravity.
Stuff like mass and energy
Einstein’s Field Equations
Stuff describing the curvature of space(time), otherwise thought of as the force of gravity.
Stuff like mass and energy
is related to
Is the Universe FLAT?
The density of the universe also determines its geometry. If the density of the universe exceeds the critical density, then the geometry of space is closed and positively curved like the surface of a sphere.
If the density of the universe is less than the critical density, then the geometry of space is open (infinite), and negatively curved like the surface of a saddle.
If the density of the universe exactly equals the critical density, then the geometry of the universe is flat like a sheet of paper, and infinite in extent.
http://map.gsfc.nasa.gov/media/990006/index.html
There is no static solution
If mass pulls the Universe together, we cannot have a Universe that stays as it is forever.
Einstein’s Field Equations
No static solution
is r
elat
ed to
is related to
+ Λ
Add a part that pushes the Universe apart
Λ = the cosmological constant
Doppler shift and inverse square law
Objects that are moving away have longer wavelengths.
Objects that are farther away look dimmer. If you know how bright a source is, you can determine the distance by how bright it seems.
Hubble’s LawAround 1930, Hubble showed that the speeds with which galaxies were moving away from us is proportional to their distance from us.
v = H0d,
where H0 is Hubble’s constant
(Measured from brightest stars method)
(Measured from Doppler shift of spectral lines)
(Km
/S)
(Mpc)
Expanding Universe
Expanding Universe
Image of galaxyImage of galaxy with supernova
Supernova in IC4830
Supernovae get brighter and dimmer again within a few weeks.
Reiss, Press, and Kirschner (1996)
Hubble Diagram from Type Ia Supernovae
(Km
/S)
(Mpc)
dc
Hz 0
The galaxies don’t really have a velocity.
Einstein’s Field Equations
Don’t need a static solution!!!
This is the biggest blunder of my life.
No static solution
is r
elat
ed to
is r
elat
ed to
+ Λ
is related to----
Lots of mass
Critical density
Low mass
Gnab Gib
Cosmological Parameters
Quantities that describe the Universe: :
H0: The current rate the Universe is expanding
Ω0: The current mass density
Λ: The funny constant for pushing the Universe apart
The State of cosmology in 1988
• Hubble constant controversy – some say it is 50 km/s/Mpc and others insist 100 km/s/Mpc
• Age of Universe: 6-12 billion years (depending on Hubble constant). Age of stars in globular clusters: 15-20 billion years
• Theorists insist Ω0 = 1.0
• Observers only see Ω0 of 0.2 to 0.4, even including unseen dark matter
Graduate Thesis Project is to Weigh the Universe
Supernova Cosmology Project
The 4.0 meter Anglo-Australian Telescope
They built a special wide-field camera
This is what we are looking for. Gerson
Rich Muller suggested that maybe Gerson had needed to re-orient it.
This search failed to find supernovae because:
(1)The weather was terrible at the AAT. (2)The seeing was 2”, which meant most supernova positions were less than a seeing disk from the galaxy center. (3)AGN variability produced a large set of false detections. (4)They did not have scheduled follow-up. (5)Supernovae were dimmer than expected.
In 1992, the group had overspent all budgets, had no distant supernovae, and was in
quite a lot of trouble.
The funding and the control was shifted from Carl Pennypacker (who had started the project) and Rich Muller (who was the group leader) to Saul Perlmutter (who was a postdoc and the primary technical driver for the software). The search moved to the CTIO 4m telescope, and
began to find supernovae.
Success brought competitorsThe Hi-Z Super Nova (SN) Search team was composed of a dozen well-seasoned astronomers who were experts in SN phenomenology . They were less well funded than the LBL group, not centrally controlled, generally dismissive of the astronomical knowledge of the Supernova Cosmology Project members, and jealous of the constant funding that the physicists were getting to do science.
The Hi-Z team had the expertise and the contacts on the telescope time assignment committees. The LBL group were experts in data analysis, had several years head start, consistent funding, and an established organization structure.
The race was on.
In a flat Universe:
ΩM = 0.28 [±0.085 statistical][±0.05 systematic]
Probability of Λ=0; 1%
In a flat Universe:ΩM = 0.28 [±0.085 statistical][±0.05 systematic]Probability of Λ=0: 1%
Einstein’s Field Equations
But we need an accelerating solution
Don’t need a static solution!!!
No static solution
is r
elat
ed to
is r
elat
ed to
+ Λ
is r
elat
ed to
+ Λ is related to
Einstein’s Field Equations
But we need an accelerating solution 但需要加速解
Don’t need a static solution!!!不需要静态解
No static solution没有静态解
is r
elat
ed to
is r
elat
ed to
+ Λ
is r
elat
ed to
+ is related
to 相关于 Dark Energy
The change in the scale factor with time
-20 -10 0 10 20 30
0
1
2
3
4
Time (Gyr)
H0 = 71 km/s/Mpc, ΩM = 0.3, ΩΛ = 0.7
Siz
e of
Uni
vers
e
Dark EnergySince the Λ term contributes positively to the energy
density of the Universe, it contributes to the curvature the same way normal matter and dark matter do.
Since the pressure has the opposite sign, it is said that “dark energy” has negative pressure, and this causes the Universe to expand exponentially.
But there is still much that is unknown: what substance, field, or force is responsible? Can Λ vary with time?
Assigning the Credit
Saul PerlmutterRecognized leader of Supernova Cosmology Project, first author on prize-winning paper, technical innovator, dedicated years of his life
to this cause.
Brian SchmidtPI of Hi-Z SN group, wrote software reduction code.
Adam RiessFirst author of prize-winning paper (as a graduate student), later used HST to discover more distant supernovae at z~1.0
Hi-Z SN Search Supernova Cosmology Project
The Hi-Z paper was submitted first, but with fewer supernovae. They had the advantage of having seen the SCP results at conferences, and knew that the SCP results agreed with theirs.
Robert Kirshner, Harvard professor, and thesis advisor for both Adam Riess and Brian Schmidt. Postdoc advisor of Brian Schmidt. He spent a lifetime studying supernovae.
Gerson Goldhaber, celebrated particle physicist who joined Supernova Cosmology Project about 1990. He claims to have been the first to look at the supernova data and believed that it showed an acceleration.
Students and postdocs who made the observations, wrote the data reduction software, figured out how to calibrate the light curves, and compiled the results had
mixed career results.
Ernest LawrenceInvented cyclotron Luis Alvarez
Invented hydrognBubble chamber
Richard MullerMcArthur FellowSaul Perlmutter
Discovered accelerating Universe
Arthur ComptonDiscovered Compton Effect
Dr. Newburg
A Nobel Tradition
The Nobel Prize in physics is given for making important discoveries.
They are not given for:
• Intelligence
• Hard work
• Solid science
• Procuring the most grant money
• Popularity
• The most papers and citations (lifetime achievement)
Tips for winning a Nobel Prize None are required, and all together are not sufficient.
(1) Dare to work on something really important.
(2) Love it so much that it is your top priority. Procure a long-term source of funding that does not depend on short term accomplishments.
(3) Choose advisors and mentors who have reached their own professional goals.
(4) Have a new idea every day, and a good one every week.
(5) Persevere through failure.
Where Do We Go From Here?
(1) Theorists need to explain the physical meaning of dark
matter (cosmological constant, quintessence, …). (2) Experimentalists will measure how closely the expansion of
the Universe matches General Relativity with a constant Λ. 。(3) The stellar models still predict 15 Gyr old globular clusters
in a 13.7 Gyr Universe
(4) We still need to figure out what the dark matter is.
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