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Dark Energy & Dark Matter
Shamit Kachru (Stanford and SLAC)
LASER, Stanford, August 2012
Tuesday, August 7, 2012
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Introduction
It was the burden of Newton to teach us that the same laws that we can infer from terrestrial experiments, also
apply in the heavens:
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Fast foward 250+ years:
We have learned a lot about the constitution and interactions of terrestrial matter!
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But, starting with Newton’s observation, we can infer that what we know about constitutes only a small fraction of
what exists:
In fact, Newtonian logic suffices to understand 1/4 of this. The other 3/4 requires Einstein.
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Dark Matter
Galaxies are massive, gravitationally bound systems that consist of stars and stellar remnants, gas and dust, and, as
it happens, a bit more.
There are in excess of 170 billion galaxies in the observable Universe. Telescopes capable of imaging distant galaxies
came online in the first quarter of the 20th century.Tuesday, August 7, 2012
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Fritz Zwicky and Vera Rubin were the first two to argue that there is more to typical galaxies than meets the eye:
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The flatness of the curve indicates that there is more matter present outside the luminous core of the galaxy.
Quantitative estimates, based by now on a bewildering variety of independent probes, indicate that there is five times more of this “dark matter” than there is stuff we
know about!
From indirect tests, as well as e.g. the Bullet Cluster event,Tuesday, August 7, 2012
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we know the dark matter interacts with “our” stuff very weakly. (Its self-interactions are also bounded).
Many candidates have been proposed for the composition of this stuff (and maybe more than contributes some
fraction):
Edward A. Baltz (KIPAC) XXXII SLAC Summer Institute Nature's Greatest Puzzles 8/2/04!
Dark Matter Candidates -A Terribly Incomplete Survey
Thermal Relics equilibrium !
at early timesSUSY neutralino !
SUSY gravitino!
Neutrinostandard model + sterile" #
right-handed
Non-thermal Relics !everything else
Axion
Primordial Black HolesPlanck mass and larger
???
This list is by no means complete I will focus on !
several classesSUSY is perhaps the favored source of dark matter candidates
Axions are the favored solution to the strong CP problem
Neutrinos are the least good candidate, but are known to actually exist
Primordial black holes are a possibility difficult to form!
There is a dirty little secret !if it's relevant it's more interesting than dark matter
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We aim to learn about it using either astrophysical “dark matter annihilation” events (e.g. in the center of
the galaxy):
or via production or direct detection here on Earth:
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Given that “our” 4% of the stuff gives rise to such diverse structures and consequences, it is perhaps reasonable to think that many things could be afoot in the dark sector.
Dark Energy
This still leaves us with a missing 75%. First of all, how do we know that? It is already perhaps surprising that we
could infer the existence of the dark matter, which interacts so very weakly with us.
The key to the discovery of dark energy lies back in the original observations of Einstein and Hubble.
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Einstein:
Gravitation is geometry. The geometry of space is fixed by the matter within it.
Hubble:
Space-time at the largest scales illustrates this!
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Expanding Universe encoded in “redshifts”:
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ds2 = !dt2 + a2(t)(dx2 + dy2 + dz2)
In a simple equation, the spatial slices are expanding in time in a way governed by a(t), the “scale factor”:
The dynamics of the Universe at large scales is then determined by how the various matter sources “tell” a(t)
to behave:
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* Very little mass leads to a Universe which expands forever, with the expansion slowed slightly by the
gravitational pull of matter.
* In contrast, above a critical amount, there is enough matter that its gravitational pull causes recollapse of the
spatial slices -- a “big crunch”.
What was completely unexpected in 1998, when the verdict came in, was the third possibility: a Universe that
not only continues to expand, but whose expansion accelerates!
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But this is what was found by a detailed study of the properties of distant Type IA supernovae.
Because of the way they arise, such supernovae are thought to be ~ “standard candles”.
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Old supernovae are brighter than they should be - because the expansion is accelerating!
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“Normal” matter -- stuff that behaves like dust particles -- and even photons, cannot make the Universe do this.
In fact, as nearly as we can tell, the accelerated expansion is caused by a small and positive “cosmological constant”
modifying Einstein’s theory -- an energy density of empty space.
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On the one hand, such a cosmological constant should not have been unexpected (though it was).
“Virtual” quantum particles, if nothing else, would be expected to generate a cosmological term in our best
theories.
This would be on top of any “classical” vacuum energy present in our vacuum.
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The best estimates we get from such quantum loops would suggest a “natural” size for the vacuum energy roughly
times larger than what we see!1060 ! 10120
How are we to understand this? We’re not sure yet.
Amazingly, the most conservative answer today (still untested) relies on vacuum selection occurring in a
complicated potential landscape:
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But to do justice to this subject would require further discussion of eternal inflation, string theory, and even
anthropic arguments; all would take us far afield, and we have no more time!
Such a potential landscape seems to arise naturally in string theory, one promising candidate for a theory unifying
gravity with other interactions:
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Thanks for your attention!
Shamit KachruDepartment of Physics
Stanford University and SLAC
http://www.stanford.edu/dept/physics/people/faculty/kachru_shamit.html
Tuesday, August 7, 2012