RECORD
: THE NEW MOON CRESCENT - JULY 8 2013
This image shows the tiny lunar crescent at the precise
moment of the New Moon, in full daylight at 7h14min UTC on July 8 2013. It
is the youngest possible crescent, the age of the Moon at this instant being
exactly zero. Celestial north is up in the image, as well as the Sun. The
irregularities and discontinuities are caused by the relief at the edge of the
lunar disk (mountains, craters).
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This New Moon marks the 2013 Muslim's Ramadan.
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The ephemerides have been calculated with the NASA JPL HORIZONS System.
Instrumentation: Takahashi FSQ-106ED with focal reducer
(D=106mm, F=400mm) on Losmandy Titan German equatorial mount, IDS 3370
monochrome camera (CMOSIS 2048x2048 sensor), low-pass infrared filter 850nm.
Processing: combination of 4000 calibrated (flat-field) images, gradient
removal by wavelets, contrast/brightness, colorization. The Moon has been
pointed with the help of the GOTO system of the mount and tracked at the
precise lunar speed calculated for the instant of shooting.
Caution ! The very thin
crescent of the New Moon cannot be observed visually whatever the instrument
(naked eye, binoculars, telescope...). Moreover, pointing a celestial object
that close to the Sun is dangerous for the observer and his equipment if it is
not performed under the control of an experienced astronomer and with the
proper equipment.
Notes on the New Moon and the visibility of the
thinnest crescent
The Moon, in its orbital movement around the Earth, passes about once a month in the apparent vicinity of the Sun. If the lunar orbit were exactly situated in the same plane as the Earth's one, at each New Moon the three bodies would be aligned and, each month, we would see a total eclipse of the Sun. But the orbit of the Moon is tilted about 5° towards the Earth's orbit, so that at most New Moons, the Moon is seen passing slightly "over" of "under" the Sun and there is no eclipse ( situation "A"). A solar eclipse happens only if the New Moon occurs in the vicility of its nodes (situation "B"), but in this case the thin crescent cannot be photographed. Rigorously, the New Moon is defined as the instant when the ecliptic geocentric longitudes of the Moon and the Sun are equal, that is to say the instant when the imaginary line joining the Moon and the Sun is perpendicular to the ecliptic (the plane of the Earth's orbit). One considers that it is also the instant when their angular separation is minimum.
The Moon, in its orbital movement around the Earth, passes about once a month in the apparent vicinity of the Sun. If the lunar orbit were exactly situated in the same plane as the Earth's one, at each New Moon the three bodies would be aligned and, each month, we would see a total eclipse of the Sun. But the orbit of the Moon is tilted about 5° towards the Earth's orbit, so that at most New Moons, the Moon is seen passing slightly "over" of "under" the Sun and there is no eclipse ( situation "A"). A solar eclipse happens only if the New Moon occurs in the vicility of its nodes (situation "B"), but in this case the thin crescent cannot be photographed. Rigorously, the New Moon is defined as the instant when the ecliptic geocentric longitudes of the Moon and the Sun are equal, that is to say the instant when the imaginary line joining the Moon and the Sun is perpendicular to the ecliptic (the plane of the Earth's orbit). One considers that it is also the instant when their angular separation is minimum.
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