レーザーEXPO E-47
"HIGH POWER FIBER LASER
Our fiber lasers are meticulously designed and extensively validated to meet the industry‘s
requirements for high power (>2kW), excellent beam quality (M2~1.3), and anti-reflection
capabilities. Through rigorous design simulations and extensive practical verification, every
performance aspect is balanced, resulting in a longer product lifecycle and reduced operational
costs for users.
The single-mode or near-single-mode output of PCT‘s fiber laser engine is specifically designed to
meet the requirements of high-speed metal cutting, metal 3D printing, remote welding, and other
Applications that demand high-brightness light sources.
SPACE LASER COMMUNICATIONS
In recent years, Inter Satellite Laser Link (ISLL) communication technology has been included as
one of the main development projects in satellite development and has received attention from all
sectors. It utilizes lasers to transmit information between satellites. Instead of using electromagnetic
waves like radio waves, lasers emit highly focused beams of light, allowing for more efficient and
secure data transfer. This technology leverages the inherent properties of light, such as its high
bandwidth and low signal attenuation, to enable high-speed and long-range communication in
space.
PCT’s fiber laser components for space laser communications have been fully tested and proved
For the harsh environment of space which includes:
- Radiation Hardening
- Heat and Cold Cycling Test for Space (Storage/operation)
- High Vacuum (Operation)
- Temperature Cycling in Vacuum
- Mechanical Shocks
- Random Vibrations
They not only provide high efficiency, low signal insertion loss and high-power processing
Capabilities, but also can meet the tough requirements of space operation. At Photonicore Technologies, we pride ourselves on our exceptional ability to explore a wide range of techniques,
Diligently researching and analyzing to uncover the optimal solutions for our valued customers."
"PCT’s side-pump combiner offers extremely high pump transmission
efficiency, low signal insertion loss and great beam quality because
the core is uninterrupted during the fusion process.Furthermore,
this feature of our technology can prevent the damage of pump LD
From the backward pump light, making it more reliable for high-power lasers"
PCT’s fiber laser engine is meticulously designed and extensively
validated to meet the industry’s requirements for high power (kW Class),
excellent beam quality (M2~1.3), and anti-reflection capabilities.
Through rigorous design simulations and extensive practical
verification, every performance aspect is balanced, resulting
In a longer product lifecycle and reduced operational costs for users.
"PCT not only provides in-house passive components for fiber laser engines
and amplifiers, but also combines them together to create a new superior
hybrid component. Comparing with regular single components, our 3 in 1 & 2 in 1
Hybrid Components which have no splicing point between the passive
components (including the cladding power stripper, Fiber Bragg Grating mirrors and side-pump
combiner) can reduce much more signal insertion loss. Further, less signal insertion loss means
BETTER beam quality (M2)! In addition, PCT can offer customized fiber length of our hybrid
component for clients use of Different sized fiber laser engines."
"PCT’s side-pump combiner offers extremely high pump transmission efficiency,
low signal insertion loss and great beam quality because the core is
uninterrupted during the fusion process. Furthermore, this feature
of our technology can prevent the damage of pump LD
From the backward pump light, making it more reliable for high-power lasers."
"The Optical Fiber Amplifiers are designed with high-power pump lasers and our low loss
and High-stability pump combiners for high power boosting. The optical amplifier work with
high gain and low noise which is equipped with SMF28 fiber on the output."
"HIGH POWER FIBER LASER
Our fiber lasers are meticulously designed and extensively validated to meet the industry‘s
requirements for high power (>2kW), excellent beam quality (M2~1.3), and anti-reflection
capabilities. Through rigorous design simulations and extensive practical verification, every
performance aspect is balanced, resulting in a longer product lifecycle and reduced operational
costs for users.
The single-mode or near-single-mode output of PCT‘s fiber laser engine is specifically designed to
meet the requirements of high-speed metal cutting, metal 3D printing, remote welding, and other
Applications that demand high-brightness light sources.
SPACE LASER COMMUNICATIONS
In recent years, Inter Satellite Laser Link (ISLL) communication technology has been included as
one of the main development projects in satellite development and has received attention from all
sectors. It utilizes lasers to transmit information between satellites. Instead of using electromagnetic
waves like radio waves, lasers emit highly focused beams of light, allowing for more efficient and
secure data transfer. This technology leverages the inherent properties of light, such as its high
bandwidth and low signal attenuation, to enable high-speed and long-range communication in
space.
PCT’s fiber laser components for space laser communications have been fully tested and proved
For the harsh environment of space which includes:
- Radiation Hardening
- Heat and Cold Cycling Test for Space (Storage/operation)
- High Vacuum (Operation)
- Temperature Cycling in Vacuum
- Mechanical Shocks
- Random Vibrations
They not only provide high efficiency, low signal insertion loss and high-power processing
Capabilities, but also can meet the tough requirements of space operation. At Photonicore Technologies, we pride ourselves on our exceptional ability to explore a wide range of techniques,
Diligently researching and analyzing to uncover the optimal solutions for our valued customers."
"PCT’s side-pump combiner offers extremely high pump transmission
efficiency, low signal insertion loss and great beam quality because
the core is uninterrupted during the fusion process.Furthermore,
this feature of our technology can prevent the damage of pump LD
From the backward pump light, making it more reliable for high-power lasers"
PCT’s fiber laser engine is meticulously designed and extensively
validated to meet the industry’s requirements for high power (kW Class),
excellent beam quality (M2~1.3), and anti-reflection capabilities.
Through rigorous design simulations and extensive practical
verification, every performance aspect is balanced, resulting
In a longer product lifecycle and reduced operational costs for users.
"PCT not only provides in-house passive components for fiber laser engines
and amplifiers, but also combines them together to create a new superior
hybrid component. Comparing with regular single components, our 3 in 1 & 2 in 1
Hybrid Components which have no splicing point between the passive
components (including the cladding power stripper, Fiber Bragg Grating mirrors and side-pump
combiner) can reduce much more signal insertion loss. Further, less signal insertion loss means
BETTER beam quality (M2)! In addition, PCT can offer customized fiber length of our hybrid
component for clients use of Different sized fiber laser engines."
"PCT’s side-pump combiner offers extremely high pump transmission efficiency,
low signal insertion loss and great beam quality because the core is
uninterrupted during the fusion process. Furthermore, this feature
of our technology can prevent the damage of pump LD
From the backward pump light, making it more reliable for high-power lasers."
"The Optical Fiber Amplifiers are designed with high-power pump lasers and our low loss
and High-stability pump combiners for high power boosting. The optical amplifier work with
high gain and low noise which is equipped with SMF28 fiber on the output."