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termoluminescensdatering

Termoluminescensdatering, or thermoluminescence dating, is a geochronology method used to determine the time elapsed since crystalline minerals were last heated or last exposed to sunlight. The technique relies on natural radioactivity in the mineral lattice, which creates electronic traps over time. When the sample is subsequently heated in the laboratory, the trapped electrons are released as light; the emitted luminescence is called thermoluminescence.

The intensity of the thermoluminescent signal is proportional to the accumulated radiation dose since the last

Applications and scope include dating archaeological artifacts when organic material is unavailable for radiocarbon dating, as

Limitations and uncertainties arise from partial bleaching (incomplete reset of the signal before burial), changes in

heating
event.
To
convert
this
signal
into
an
age,
the
equivalent
dose
(D_e)
is
determined
in
the
lab,
and
the
age
is
calculated
as
age
=
D_e
divided
by
the
annual
dose
rate
(D_rad)
from
the
surrounding
environment.
The
method
primarily
uses
quartz
and
feldspar
minerals
and
is
frequently
applied
to
pottery,
burnt
stones,
ceramics,
and
sedimentary
deposits.
well
as
geological
and
palaeoenvironmental
contexts
where
sediments
have
been
heated
or
exposed
to
light
before
burial.
Thermoluminescence
dating
can
cover
timescales
from
thousands
to
several
hundred
thousand
years,
depending
on
the
mineral,
dose
rate,
and
moisture
history
of
the
environment.
the
radiation
environment
over
time,
moisture
content,
and
post-depositional
processes.
Accurate
dating
requires
careful
sample
preparation,
measurement
of
the
dose
rate,
and
calibration
against
known-age
materials.
Thermoluminescence
remains
complementary
to
other
dating
methods
and
to
related
techniques
such
as
optically
stimulated
luminescence
dating.