Topic: Luminescence, Rock Surfaces | SpringerLink

The new technique of OSL surface exposure dating has considerable potential in the dating of many archaeological and geological features, such as the time of construction of megaliths, agricultural land clearance and enclosure, glacial advances and retreats, phases of erosion, and other geological processes and hazards such as mass wasting and.

1 Re: Optically stimulated luminescence (osl) as a chronometer for surface exposure dating

Optically stimulated luminescence (OSL) as a chronometer. Optically stimulated luminescence (OSL) as a chronometer for surface exposure dating. Authors. Reza Sohbati, Corresponding author.. We pioneer a technique of surface-exposure dating based upon the characteristic form of an optically stimulated luminescence (OSL) bleaching profile beneath a rock surface; this evolves as a function of depth.

2 Re: Optically stimulated luminescence (osl) as a chronometer for surface exposure dating

OSL surface exposure dating of a lithic quarry in Tibet. Recent work has shown that the optically stimulated luminescence (OSL) signal can be used to determine the duration of daylight exposure for rock surfaces, complementing the surface exposure dating technique using cosmogenic nuclides.

3 Re: Optically stimulated luminescence (osl) as a chronometer for surface exposure dating

Age of Barrier Canyon-style rock art constrained by cross. The optically stimulated luminescence (OSL) signals from mineral grains make it possible to date the deposition of most sediment that is exposed to a few seconds of full sunlight before burial,. (OSL) as a chronometer for surface exposure dating. J Geophys Res Solid Earth 117: B09202.

4 Re: Optically stimulated luminescence (osl) as a chronometer for surface exposure dating

Optically stimulated luminescence (OSL) as a chronometer. Optically stimulated luminescence (OSL) as a chronometer for surface exposure dating. Publication: Research - peer-review › Journal article – Annual report year: 2012

5 Re: Optically stimulated luminescence (osl) as a chronometer for surface exposure dating

Testing a luminescence surface-exposure dating technique rock surface has been exposed to sunlight (Sohbati et al., 2012), thus serving as a means for surface-exposure dating. Despite the potential of this new dating tool, few published studies have tested or used this technique.

6 Re: Optically stimulated luminescence (osl) as a chronometer for surface exposure dating

Optically stimulated luminescence (OSL) as a chronometer. [1] We pioneer a technique of surface‐exposure dating based upon the characteristic form of an optically stimulated luminescence (OSL) bleaching profile beneath a rock surface; this evolves as a function of depth and time. As a field illustration of this new method, the maximum age of a premier example of Barrier Canyon Style (BCS) rock art.

7 Re: Optically stimulated luminescence (osl) as a chronometer for surface exposure dating

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8 Re: Optically stimulated luminescence (osl) as a chronometer for surface exposure dating

Optically stimulated luminescence (OSL) as a chronometer. We pioneer a technique of surface-exposure dating based upon the characteristic form of an optically stimulated luminescence (OSL) bleaching profile beneath a rock surface; this evolves as a.

9 Re: Optically stimulated luminescence (osl) as a chronometer for surface exposure dating

Surface exposure dating of non-terrestrial bodies using. Highlights We propose a method for in situ surface exposure dating of young non-terrestrial surfaces using OSL. A complete model of the resetting of OSL with depth and time is presented for the first time. The method is suited to in situ measurement using existing technology for space applications.

10 Re: Optically stimulated luminescence (osl) as a chronometer for surface exposure dating

Optically stimulated luminescence (OSL) as a chronometer. We pioneer a technique of surface-exposure dating based upon the characteristic form of an optically stimulated luminescence (OSL) bleaching profile beneath a rock surface; this evolves as a function of depth and time.