Gravity

  • Newtonian gravity

    Newtonian gravity
    Isaac Newton publishes Philosophiae Naturalis Principia Mathematica, giving a comprehensive account of gravity. This gave astronomers an accurate toolbox for predicting the motions of planets. But it was not without its problems, such as calculating the precise orbit of the planet Mercury.
  • Planet Vulcan

    Planet Vulcan
    To explain Mercury’s odd behaviour, Urbain Le Verrier proposed the existence of an unseen planet called [Vulcan].He suggested that the gravity from Vulcan was influencing Mercury’s orbit. But repeated observations revealed no signs of Vulcan.
  • Special relativity

    Special relativity
    Albert Einstein shakes up physics with his special theory of relativity. He then started incorporating gravity into his equations, which led to his next breakthrough.
  • Einstein predicts gravitational redshift

    Einstein predicts gravitational redshift
    What we now call gravitational redshift was first proposed by Einstein from his thoughts in the development of general relativity.
  • General relativity

    General relativity
    Albert Einstein publishes general theory of relativity. The first great success was its accurate prediction of Mercury’s orbit.The theory also predicts the existence of black holes and gravitational waves.
  • Einstein theorises stimulated emission

    Einstein theories stimulated emission. In stimulated emission, an incoming photon interacts with the excited atom, causing it to move to a lower energy state, releasing photons that are in phase and have the same frequency and direction of travel as the incoming photon.
  • Prediction of frame dragging

    Josef Lense and Hans Thirring theorise that the rotation of a massive object in space would “drag” spacetime around with it.
  • First observation of gravitational lensing

    First observation of gravitational lensing
    Gravitational lensing is the bending of light around massive objects, such as a black hole, allowing us to view objects that lie behind it.May 1919, stars near the sun were observed slightly out of position.
  • First measurement of gravitational redshift

    Walter Sydney Adams examined light emitted from the surface of massive stars and detected a redshift, as Einstein predicted.
  • Prediction of a galactic gravitational lensing

    Swiss astronomer Fritz Zwicky proposed that an entire galaxy could act as a gravitational lens.
  • Gravitational redshift verified

    Gravitational redshift verified
    The theory was conclusively tested by Robert Pound and Glen Rebka by measuring the relative redshift of two sources at the top and bottom of Harvard University’s Jefferson Laboratory tower
  • Laser invented using stimulated emission

    Theodore H. Maiman, a physicist at Hughes Research Laboratories in California, builds the first laser.
  • First evidence for black holes

    The 1960s was the beginning of the renaissance of general relativity, and saw the discovery of galaxies that were powered by the immense pull of black holes in their centres.There is now evidence of massive black holes in the hearts of all large galaxies.
  • First observation of gravitational time delays

    First observation of gravitational time delays
    American astrophysicist Irwin Shapiro proposed that if general relativity is valid, then radio waves will be slowed down by the sun’s gravity as they bounce around the solar systemThe effect was observed between 1966-7 by bouncing radar beams off the surface of Venus and measuring the time taken for the signals to return to Earth.
  • False detection of gravitational waves

    False detection of gravitational waves
    American physicist Joseph Weber (a bit of a rebel) claimed the first experimental detection of gravitational waves. His experimental results were never reproduced
  • Indirect evidence for gravitational waves

    Indirect evidence for gravitational waves
    Joseph Taylor and Russell Hulse discover a new type of pulsar: a binary pulsar.Measurements of the orbital decay.hey receive the 1993 Nobel Prize for Physics for this discovery.
  • First observation of a galactic gravitational lens

    The first extragalactic gravitational lens was discovered, when observers Dennis Walsh, Bob Carswell and Ray Weymann saw two identical quasi-stellar objects, or “quasars”.Since the 1980s, gravitational lensing has become a powerful probe of the universe.
  • LIGO receives funding

    US National Science Foundation funds construction of the Laser Interferometer Gravitational-Wave Observatory (LIGO).
  • Another false alarm for gravitational waves

    A false alarm on direct detection from Joseph Weber (again) with claimed signal from the supernova SN 1987A using his torsion bar experiments.
  • LIGO construction begins

    LIGO construction begins
    It took a long time, but the construction of LIGO finally began in Hanford, Washington, and Livingston, Louisiana.
  • LIGO starts first search

    In August 2002, LIGO starts searching for evidence of gravitational waves
  • Frame dragging probe

    Frame dragging probe
    NASA launches Gravity Probe B to measure the spacetime curvature near the Earth. The probe contained gyroscopes that rotated slightly over time due to the underlying spacetime. The effect is stronger around a rotating object which “drags” spacetime around with it.
  • LIGO hunt ends

    After five searches, the first phase of LIGO ends with no detection of gravitational waves. The sensors then undergo an interim refit to improve sensitivity, called Enhanced LIGO.
  • Enhanced LIGO

    An upgraded version called Enhanced LIGO starts new hunt for gravitational waves
  • Enhanced LIGO hunt ends

    Enhanced LIGO hunt ends
    Enhanced LIGO fails to detect and gravitational waves. A major upgrade, called Advanced LIGO begins
  • Advanced LIGO upgrade completed

    The new Advanced LIGO has finished installation and testing and is nearly ready to begin a new search.
  • False alarm #3 for gravitational waves

    The indirect signature of gravitational waves in the early universe was claimed by the BICEP2 experiment, looking at the cosmic microwave background. But it looks like this was dust in our own galaxy.
  • LIGO upgraded again

    Advanced LIGO starts a new hunt for gravitational waves.In September, it detects a signal that looks likely to be from the collision between two black holes.
  • Gravitational wave detection confirmed

    Gravitational wave detection confirmed
    After rigorous checks, the Advanced LIGO team announce the detection of gravitational waves