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digitallaser

Digitallaser is a term used in the optics and photonics industry to describe laser systems that integrate digital control with laser emission to produce programmable, high-precision light sources. In digitallaser configurations, a digital controller modulates output power, pulse timing, beam steering, and beam shaping in real time, enabling complex light patterns and rapid switching that advance capabilities beyond traditional analog control. The technology spans multiple laser types, including diode, fiber, and solid-state lasers, and commonly uses components such as high-speed digital-to-analog interfaces, field-programmable gate arrays, software-defined control, galvanometer scanners, and spatial light modulators. The result is a digitally programmable light source that can be customized by software to match a range of tasks.

Applications of digitallaser include microfabrication, additive manufacturing, laser marking and engraving, surgical and therapeutic procedures, ophthalmic

History and development of digitallaser reflect the convergence of digital electronics with laser technology. Early demonstrations

Safety and standards: Digitallaser systems, like other laser-based devices, are subject to laser safety regulations and

devices,
materials
processing
research,
and
advanced
metrology.
In
manufacturing,
digitallaser
enables
precise
contouring,
multi-pass
or
multi-parameter
processing,
and
rapid
prototyping
by
adjusting
wavelength,
power,
pulse
duration,
and
scanning
patterns
under
software
control.
date
to
the
1990s
and
2000s
with
digitally
controlled
laser
diodes
and
modulators;
the
term
began
appearing
in
industry
literature
in
the
2010s
as
electronics
and
software
matured.
Today,
digitallaser
describes
a
class
of
systems
rather
than
a
single
standard,
with
vendors
offering
varying
implementations
and
configurations
tailored
to
specific
applications.
standards
addressing
classification,
enclosure,
interlocks,
and
protective
eyewear.
Compliance
commonly
follows
standards
such
as
IEC
60825
and
ANSI
Z136.1,
along
with
manufacturer-specific
safety
procedures.