Taking the census of the Milky Way Galaxy. Gerry Gilmore Professor of Experimental Philosophy Institute of Astronomy Cambridge

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Transcription:

Taking the census of the Milky Way Galaxy Gerry Gilmore Professor of Experimental Philosophy Institute of Astronomy Cambridge

astrophysics cannot experiment merely observe and deduce: so how do we analyse the Milky Way? What: count stars, gas, dust, 3-D structure, size, shape When: quantify chemical elements creation rate, star formation history Where: quantify kinematics assembly history Why: determine mass stars, gas, dark matter The future: Gaia: taking the census of the Milky Way

The finite speed of light means we see distant galaxies only as they were long ago; detailed study of nearby galaxies quantifies the many physical processes seen Low resolution statistical data Phenomenological modelling High resolution single object

How does one study the Milky Way? The first stage of scientific discovery is knowing an object exists, and where it is 2-D 3-D 5-D 6-D 12+ D position parallax proper motions spectrum astrophysical parameters ultra-precision over time distance transverse velocities radial velocity + chemistry ages, histories, astrophysics Stellar orbits, star formation history, origin of the elements, Galaxy assembly, dark matter, cosmological initial conditions, fundamental physics, solar system(s),

What: star counting has a distinguished history Success Phil Trans 75 213-266 And challenges: Newton s fixae stellae notes for Principia 2 nd ed. CU Library

When: tracking stardust: origins of the chemical elements H, He & Li are ashes from the Big Bang. All other elements are created in (or by) stars, dispersed through supernovae and stellar winds, becoming available to form new stars, planets, and people. The different creation processes: iron-peak (Fe, Cr..), alpha (C, O, Mg, Ca, Si..), light (N, F), proton capture (Sc, V), rapid- (Ba, Eu) or slow(sr)-neutron capture correspond to stars of different lifetimes, and so the elements form a cosmic clock, which allows us to decode the sequence of events which began 13Gyr ago, and which continues today Gaia-ESO is a 450-person team delivering the first large-telescope spectroscopic survey of the Milky Way

Where: kinematics provides a new discovery space Sagittarius dwarf galaxy: our nearest neighbour. discovered 1994 Sagittarius is the prototype of the many small galaxies which merge to assemble large galaxies Image courtesy Daily Mail We have now found 25+ new satellites of the Milky Way, and several debris streams - which is interesting, as standard cosmology predicts some 1000+ satellites we are discovering the continuing assembly of the outer Galaxy

Why: adding kinematics A star s line of sight (radial) speed toward/away from us is determined by the Doppler shift of its spectrum. These velocities, together with star counts, are the information to weigh the Galaxy. The stellar velocities provide a (collisionless) pressure which balances gravity. Thus one can deduce the gravitational field and mass. Extending star counts determines the total mass in gas, dust & stars and useful information on the range of stellar masses at birth. This leads to an anomaly: there is more mass locally than is visible dark matter The measured dark matter density locally is 0.35 GeV/c² 1Gev/c² = 1 hydrogen atom We are now working to measure the distribution and temperature of dark matter

what comes next? There is an elephant in the astrophysics room: all distances depend on very few, inaccurate, stellar parallaxes 6-D 12+ D The cosmological distance scale is the weak link in modern astrophysics spectrum Astrophysical parameters 2-D 3-D 5-D Radial velocity + chemistry Ages, histories, astrophysics parallax distance Thanks to Ian for the elephant

Gaia: ESA s premier astrophysics mission of the decade Gaia is transformational the first 3-D galaxy precision distances and motions for 1 billion stars Launch: Oct/2013 Work started: 1990 Project approved: 2000 Project end: 2022 the heart of Gaia is the largest camera array yet built, sending us a video of the sky for 5 years. the imaging data will be processed in Cambridge Total cost: 900M Data flow: 50Gb/day for 5-6 years; total processed data and archives 1PByte computational challenge : 1.5 x 10²¹ FLOP and highly sophisticated algorithms

Gaia has exciting outreach potential as well as awesome science Gaia will discover new transient sources in real-time, and we will distribute them freely. We will work with children and amateur astronomers to do original science analysing these --- to learn about science by doing science

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