The Discovery of the Cosmic Microwave Background Radiation - PowerPoint PPT Presentation

1 / 19
About This Presentation
Title:

The Discovery of the Cosmic Microwave Background Radiation

Description:

Prior to the 20th Century cosmology was the study of objects in the universe, ... to disturb earlier, including removing a pair of pigeons and their droppings. ... – PowerPoint PPT presentation

Number of Views:138
Avg rating:3.0/5.0
Slides: 20
Provided by: ama09
Category:

less

Transcript and Presenter's Notes

Title: The Discovery of the Cosmic Microwave Background Radiation


1
The Discovery of the Cosmic Microwave Background
Radiation
  • Robert W. Wilson
  • Harvard-Smithsonian Center for Astrophysics

2
Talk Outline
  • A Brief discussion of Cosmology in the first half
    of the 20th Century.
  • Background of the Discovery.
  • The discovery of the Cosmic Microwave Background
    Radiation (from my perspective).

3
Cosmology in the Early 20th Century
  • Prior to the 20th Century cosmology was the study
    of objects in the universe, not the physics of
    the universe as a whole.
  • Einstein published General Relativity in 1915
    which established a theoretical framework for
    understanding the universe as a whole.
  • There was one cosmological fact The night sky
    is dark (Olber's paradox).
  • Einstein ignored it and introduced the
    cosmological constant to allow a solution for
    an infinite static universe . Einstein's biggest
    blunder?
  • In 1925 Hubble showed that the Andromeda Nebula
    and other similar nebulae are separate galaxies,
    not part of the Milky Way.
  • In 1929 Hubble and Humason formulated the
    redshift-distance law for Galaxies -gt expanding
    or Big Bang universe.

4
Hubble Diagram 1929
  • Cosmological Principle
  • Red shift results from light traveling through
    expanding space.
  • Hubble did not sample a large enough volume.
  • The Hubble Constant derived from this data is 5x
    too large.
  • The Earth was known to be older than the implied
    age of the universe
  • Bondi, Gold and Hoyle proposed the steady-state
    theory.

5
The Andromeda Nebula (Galaxy)?
  • Looking out from the earth, we saw the solar
    system, the Milky Way galaxy and other galaxies,
    mostly in clusters.
  • All of these are gravitationally bound and do not
    expand with the universe.
  • People were beginning to realize that in galaxies
    and clusters of galaxies, the motions imply more
    mass than is seen Dark Matter.

6
Early Bell Labs Communication Satellite Work
  • In 1955 John Pierce published a paper in Jet
    Propulsion titled Orbital Radio Relays
  • In 1957 Sputnik was launched and then in 1958
    NASA proposed launching the 100 diameter Echo
    balloon made of , 0.0005 aluminized mylar to
    measure the forces in orbit.
  • Bell Labs proposed using Echo as a first
    communications satellite.
  • The return signal would be weak, so they would
    combine two Bell Labs inventions to form a low
    noise receiving system.
  • A traveling wave ruby MASER amplifier (the
    loweswt noise amplifier available)?
  • A large horn-reflector antenna
  • Echo was launched and used as a microwave relay
    in 1960. Eisenhowers voice was transmitted by
    JPL and received at Crawford Hill
  • Telstar was the first active communications
    satellite, launched in 1962

7
(No Transcript)
8
The 20 foot Horn-Reflector
9
My Background
  • Sputnik was launched in Oct. 1957 during my first
    semester as a graduate student at Caltech
  • I Joined a Radio Astronomy group which was just
    completing the heavy construction for the first
    Owens Valley Interferometer because my interests
    in engineering and physics would both be
    satisfied.
  • As a graduate student my one cosmology course was
    taught by Sir Fred Hoyle and philosophically I
    liked the steady-state theory.
  • In my thesis I used one of the dishes of the
    interferometer to measure the brightness of the
    part of the Milky Way we could see from the Owens
    Valley at 960 MHz (31 cm wavelength).
  • I had no absolute measure of the brightness. We
    are inside the Galaxy, so our line of sight
    passes through some of the Galaxy wherever we
    point.

10
Bell Labs 1963
  • After finishing my PhD and a one year post-doc I
    took a job at Bell Labs' Crawford Hill Lab in
    1963.
  • Crawford Hill people had carried out much of the
    Echo project and been involved in Telstar.
    (Comsat had been created just before I arrived.)?
  • Arno Penzias had been hired a year earlier after
    he finished a radio astronomy thesis at Columbia
    with Charlie Townes.
  • Why did Bell Labs hire two radio astronomers?
  • The attraction to Arno and me was the research
    atmosphere, the generous support and the
    opportunity to use the 20 foot horn-reflector
    with very low noise traveling wave MASER
    amplifiers from Whippany.
  • Both Arno and I had used larger antennas for out
    theses, but the 20 foot horn-reflector had
    special properties.

11
Our Plans
  • Arno and I set out a series of measurements we
    wanted to make using the 20 foot horn-reflector.
    Among them were
  • Measure the absolute strength of CasA at 4 Ghz.
    This would be useful for astronomy and satellite
    systems.
  • Look for a halo of radiation around the Milky Way
    at 1.42 GHz wavelength and establish a zero level
    for Galactic radiation (fix up my thesis).
  • Make a much better search for atomic hydrogen in
    galactic clusters (fix up Arno's thesis).
  • By starting with the existing 4 Ghz system, we
    could do the useful measurement of CasA and a
    control measurement for the galactic halo.
  • We built the best measuring system we could
  • Arno made a liquid helium cooled reference noise
    source.
  • I made an accurate switch for comparing the
    antenna to the reference and greatly improved the
    stability of the measuring system.

12
The Discovery Measurements
  • After assembling our radiometer, our first
    measurement was a big disappointment. The
    antenna was hotter than the reference source and
    it should have been colder. There was an extra
    3.5K antenna temperature which we could not
    explain.
  • This was similar to what had been seen before at
    Bell Labs, but we had an accurate measurement
    which could not be dismissed as experimental
    error.
  • By this time Dave Hogg and I had measured the
    gain of the 20-foot horn-reflector accurately and
    the most important thing for us to do was to make
    the CasA measurement while that gain was still
    valid.
  • We spent 9 months improving our receiver,
    checking that several different ways of
    calibrating it gave consistent answers and
    accurately measuring the strength of several
    radio sources, including Cas A.
  • During that time the excess noise remained the
    same and we found no fault in our equipment or
    environment to explain it.

13
Identification
  • After completing the CasA measurement we started
    cleaning up some parts of the antenna which we
    had not wanted to disturb earlier, including
    removing a pair of pigeons and their droppings.
    This had little effect.
  • Then one day Arno called Bernie Burke at MIT ...
  • Arno called Bob Dicke at Princeton ...
  • Arno and I were happy to have any explanation,
    but neither of us took the cosmology seriously at
    first. Cosmology had never predicted anything.
  • We and Dicke's group wrote two separate papers.
    Our measurement might be correct even if the Big
    Bang was not the source.
  • We made one final check for antenna problems with
    a transmitter.
  • Before the papers were published, there was a
    leak from the ApJ office and Walter Sullivan
    wrote a story about our measurement on the front
    page of the New York Times. That convinced me
    that the world was taking the cosmology seriously.

14
Confirmation
  • The first confirmation came quickly from an
    unexpected source. From 1939 to 1943 Dunham,
    Adams and McKellar had measured the rotational
    excitation of CN molecules in diffuse
    interstellar clouds from their absorption of star
    light. Herzberg wrote in his standard book on
    the interstellar medium.
  • From the intensity ratio of the lines a
    rotational temperature of 2.3 degrees follows,
    which of course has only a very restricted
    meaning.
  • The excitation of CN molecules was remembered by
    3 separate groups.
  • Burnie Burke told George Field about our
    measurements. George had written a paper while
    an assistant professor at Princeton ...
  • Pat Thaddeus asked Nick Wolfe about tests for
    radiation and Nick remembered the CN.
  • Shklovsky remembered the CN.
  • By the end of the year Wilkinson and Roll had
    made a measurement at 3 cm wavelength which
    agreed with ours.

15
Measurements of the CMBR After a Year
16
The Theory Was Also Not New
  • George Gamow and associates were exploring
    nucleosynthesis in the big bang in the second
    half of the 1940's. They glossed over
    inconvenient facts of nuclear physics.
  • In 1949 Alpher and Herman calculated that the
    radiation from the big bang would be 5 K, but
    they also had the nuclear physics wrong.
  • In 1953 Alpher, Folin and Herman made the first
    modern analysis of light element formation, but
    did not discuss the radiation.
  • Alpher and Herman had inquired about the
    possibility of measuring the radiation
    temperature of the universe, but were told that
    it would be impossible to detect.
  • I had read several of Gamow's children's books as
    a boy, but I don't believe that the radiation was
    mentioned and I certainly did not remember it if
    it was.

17
Science Does Not Always work the Way the
Textbooks Say 5 Near Misses
  • The original CN. Not enough was known about the
    conditions in the diffuse clouds at the time.
  • Gamow, Alpher and Herman. In my opinion a
    measurement could have been made in the 1950's.
  • Ed Ohm at Bell Labs carefully measured all of the
    components of the satellite receiver he built for
    the 20 foot horn-reflector and measured an excess
    3.1K.
  • George Field was on the trail, but discouraged by
    an expert. If he had walked a couple of hundred
    feet across campus to the physics department and
    talked to Dicke, I might not be here today.
  • Doroshkevich and Novikov in the last paragraph of
    a 3 page paper on the local radiation density in
    1964 suggested the importance of checking the
    Gamow Theory. They found, but misinterpreted
    Ed Ohm's paper and concluded that there was no
    measurable radiation.

18
Prompt Results
  • The steady-state theory was put to rest. If the
    spectrum was that of a black body and its source
    still present, it would hide everything behind
    it.
  • The steady-state theory was dying anyway.
  • 1964 Hoyle and Taylor paper pointing out a
    problem with helium in SS.
  • Radio source counts implied an evolution
  • Quasars are absent locally
  • Steven Hawking showed that the Big Bang is
    possible in general relativity without a
    singularity problem.
  • There was an almost immediate acceptance of our
    measurements little resistance to a paradigm
    shift.
  • Cosmology gained an observable which could be
    accurately measured.

19
From 1965 Until Now
  • COBE showed that the spectrom of the CMBR is
    accurately a black body from the radio to the far
    infrared.
  • COBE also found the first evidence of variations
    of intensity which seeded the development of
    structure in the universe.
  • Cosmology has become a real science.
  • A page full of accurate numbers can be derived
    from the CMBR alone.
  • Although there are some remarkable fits between
    theory and observation, some large problems
    remain, especially in the very early universe.
Write a Comment
User Comments (0)
About PowerShow.com