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Monday, October 1, 2018

NASA - Goddard Lunar Science on a Roll
src: www.nasa.gov

The ongoing Lunar Laser Ranging experiment measures the distance between Earth and the Moon using laser ranging. Lasers on Earth are aimed at retroreflectors planted on the Moon during the Apollo program (11, 14, and 15), the two Lunokhod missions, and the upcoming MoonLIGHT retroreflector to be deployed by the private MX-1E lander. The time for the reflected light to return is measured, and the distance is calculated.


Video Lunar Laser Ranging experiment



Overview

The first successful tests were carried out in 1962 when a team from the Massachusetts Institute of Technology succeeded in observing laser pulses reflected from the Moon's surface using a laser with a millisecond pulse length. Similar measurements were obtained later the same year by a Soviet team at the Crimean Astrophysical Observatory using a Q-switched ruby laser. Greater accuracy was achieved following the installation of a retroreflector array on 21 July 1969, by the crew of Apollo 11, and two more retroreflector arrays left by the Apollo 14 and Apollo 15 missions have also contributed to the experiment. Successful lunar laser range measurements to the retroreflectors were first reported by the 3.1 m telescope at Lick Observatory, Air Force Cambridge Research Laboratories Lunar Ranging Observatory in Arizona, the Pic du Midi Observatory in France, the Tokyo Astronomical Observatory, and McDonald Observatory in Texas.

The unmanned Soviet Lunokhod 1 and Lunokhod 2 rovers carried smaller arrays. Reflected signals were initially received from Lunokhod 1, but no return signals were detected after 1971 until a team from University of California rediscovered the array in April 2010 using images from NASA's Lunar Reconnaissance Orbiter.Lunokhod 2's array continues to return signals to Earth. The Lunokhod arrays suffer from decreased performance in direct sunlight--a factor considered in reflector placement during the Apollo missions.

The Apollo 15 array is three times the size of the arrays left by the two earlier Apollo missions. Its size made it the target of three-quarters of the sample measurements taken in the first 25 years of the experiment. Improvements in technology since then have resulted in greater use of the smaller arrays, by sites such as the Côte d'Azur Observatory in Grasse, France; and the Apache Point Observatory Lunar Laser-ranging Operation (APOLLO) at the Apache Point Observatory in New Mexico.


Maps Lunar Laser Ranging experiment



Principle

The distance to the Moon is calculated approximately using this equation:

distance = (speed of light × time taken for light to reflect) / 2

In actuality, the round-trip time of about 2.5 seconds is affected by the location of the Moon in the sky, the relative motion of Earth and the Moon, Earth's rotation, lunar libration, weather, polar motion, propagation delay through Earth's atmosphere, the motion of the observing station due to crustal motion and tides, velocity of light in various parts of air and relativistic effects. Nonetheless, the Earth-Moon distance has been measured with increasing accuracy for more than 35 years. The distance continually changes for a number of reasons, but averages 385,000.6 km (239,228.3 mi).

At the Moon's surface, the beam is about 6.5 kilometers (4.0 mi) wide and scientists liken the task of aiming the beam to using a rifle to hit a moving dime 3 kilometers (1.9 mi) away. The reflected light is too weak to see with the human eye. Out of 1017 photons aimed at the reflector, only one is received back on Earth every few seconds, even under good conditions. They can be identified as originating from the laser because the laser is highly monochromatic. This is one of the most precise distance measurements ever made, and is equivalent in accuracy to determining the distance between Los Angeles and New York to 0.25 mm (0.01 in). As of 2002, work is progressing on increasing the accuracy of the Earth-Moon measurements to near millimeter accuracy, though the performance of the reflectors continues to degrade with age. The upcoming MoonLIGHT reflector, that will be landed in 2019, is designed to increase measurement accuracy 100 times over existing systems.


ALSEP AS14-67-9386 - Lunar Laser Ranging experiment - Wikipedia ...
src: s-media-cache-ak0.pinimg.com


Results

Lunar laser ranging measurement data is available from the Paris Observatory Lunar Analysis Center, and the active stations. Some of the findings of this long-term experiment are:

  • The Moon is spiraling away from Earth at a rate of 3.8 cm per year. This rate has been described as anomalously high.
  • The Moon probably has a liquid core of about 20% of the Moon's radius.
  • The universal force of gravity is very stable. The experiments have constrained the change in Newton's gravitational constant G to a factor of (2±7)×10-13 per year.
  • The likelihood of any "Nordtvedt effect" (a differential acceleration of the Moon and Earth towards the Sun caused by their different degrees of compactness) has been ruled out to high precision, strongly supporting the validity of the strong equivalence principle.
  • Einstein's theory of gravity (the general theory of relativity) predicts the Moon's orbit to within the accuracy of the laser ranging measurements.
  • Gauge freedom plays a major role in a correct physical interpretation of the relativistic effects in the Earth-Moon system observed with LLR technique

Lunar Laser Ranging Experiment Stock Photos & Lunar Laser Ranging ...
src: c8.alamy.com


Photo gallery




See also

  • Apache Point Observatory Lunar Laser-ranging Operation
  • Apollo Lunar Surface Experiments Package
  • Tom Murphy (physicist) (principal investigator of Apollo's reflector experiment)
  • Carroll Alley (previous principal investigator of Apollo's reflector experiment)
  • Earth-Moon-Earth communication
  • Lidar
  • Lunar distance (astronomy)
  • Lunokhod programme
  • Satellite laser ranging
  • Space geodesy
  • Third-party evidence for Apollo Moon landings
  • List of retroreflectors on the Moon



References




External links

  • "Theory and Model for the New Generation of the Lunar Laser Ranging Data" by Sergei Kopeikin
  • Apollo 15 Experiments - Laser Ranging Retroreflector by the Lunar and Planetary Institute
  • "History of Laser Ranging and MLRS" by the University of Texas at Austin, Center for Space Research
  • "Lunar Retroreflectors" by Tom Murphy
  • Station de Télémétrie Laser-Lune in Grasse, France
  • Lunar Laser Ranging from International Laser Ranging Service
  • "UW researcher plans project to pin down moon's distance from Earth" by Vince Stricherz, UW Today, 14 January 2002
  • "What Neil & Buzz Left on the Moon" by Science@NASA, 20 July 2004
  • "Apollo 11 Experiment Still Returning Results" by Robin Lloyd, CNN, 21 July 1999

Source of article : Wikipedia