High Energy Lasers

Description: The Tactical High Energy Laser (THEL) demonstrator was designed, developed and produced by a Northrop Grumman-led team of U.S. and Israeli contractors for the U.S. Space & Missile Defense Command, Huntsville, Ala., and the Israeli Ministry of Defense. Located at the High

Description: High energy diode pumped all solid state Q-switched laser at 1064nm has the features of high single pulse energy, short pulse duration, and high peak power, which is widely used in LIBS, LIF, ICP-MS,scientific research, and so on.

• Laser Output: Q-Switched
• Laser Type: Solid State Lasers
• Laser Wavelength: Infrared, Other
• Operating Temperature Range: 15 to 30 C

Description: . Ideal for high-energy Ti:Sapphire and microscopy applications Dispersion-free mirrors and beamsplitters Substrate material fused silica Wavefront ?/10 flatness (p-v at 633 nm, after coating with power subtracted) Surface Quality 20-10 Damage threshold ~ 2 J/cm2 for 500 fs laser

• Diameter/Width: 25.4 mm
• Incidence: 0º Incidence, 45º Incidence
• Surface Flatness: λ/10
• Thickness: 6.35 mm

Description: High energy laser includes lamp pumped (LPS series) and diode pumped (DPS series) lasers. It is widely used in medical, scientific research, material processing and industrial applications. Available with 266 nm, 355 nm, 532 nm, 1064 nm, 1573 nm, etc... The single pulse

• Laser Wavelength: Other
• Operating Temperature Range: 15 to 30 C
• Pulse Energy: 0.5000 mJ
• Wavelength Range: 532 nm

Description: High energy laser includes lamp pumped (LPS series) and diode pumped (DPS series) lasers. It is widely used in medical, scientific research, material processing and industrial applications. Available with 266 nm, 355 nm, 532 nm, 1064 nm, 1573 nm, etc... The single pulse

Description: High energy laser includes lamp pumped (LPS series) and diode pumped (DPS series) lasers. It is widely used in medical, scientific research, material processing and industrial applications. Available with 266 nm, 355 nm, 532 nm, 1064 nm, 1573 nm, etc... The single pulse

• Laser Output: Q-Switched
• Laser Wavelength: Other
• Operating Temperature Range: 15 to 35 C
• Pulse Energy: 10 mJ

Description: Laser Crystals have high parallelism and monochrome laser, they can inverse the outside energy though the optical resonant cavity, laser crystals become the most important role in crystal laser’s working process.

• Type: Laser

Description: CO2 lasers are gas lasers and emit in the infrared. Their laser medium is carbon dioxide. In addition to solid-state lasers, the CO2 laser is one of the most powerful and most frequently used lasers. Outputs of up to 80 kW and pulse energies up to 100

• Laser Output: Pulsed
• Laser Power: 20000 to 400000 milliwatts
• Laser Type: Carbon Dioxide Lasers
• Laser Wavelength: Infrared

Description: The 532nm and 1064nm Sub-nanosecond Lasers (Microchip Lasers) are based on a passively Q-switched DPSS laser with pulse length of only a few hundred picoseconds. The high pulse energy and excellent beam quality make them an ideal source for industrial and

• Laser Output: Q-Switched, Pulsed
• Laser Power: 40 to 200 milliwatts
• Laser Type: Solid State Lasers
• Laser Wavelength: Green, Infrared

Description: In 2009, Directed Energy Systems reached new heights with its scalable building block approach for compact, electric laser weapons when it produced the most powerful light ray created by an electric laser at that time, measured at more than 105 kilowatts (kW) under the U.S.

• Laser Type: Solid State Lasers

Description: This is a passively Q-switched, short-pulse laser capable of a high-energy output of 2 mJ despite its compact laser head. The integrated laser resonator realizes maintenance-free and compact design that does not require alignment adjustment of the resonator.

• Laser Output: Pulsed
• Laser Type: Solid State Lasers

Description: ATARIUM XTR, the new sub 2 picosecond laser, offers a significant advantage over the commonly used picosecond or the more complex femtosecond lasers. High peak power and high pulse energy up to 300 µJ make the ATARIUM XTR an ideal tool for high speed,

• Laser Output: Pulsed
• Laser Power: 15000 milliwatts
• Laser Type: Fiber Lasers
• Pulse Energy: 0.3000 mJ

Description: Directed Energy Systems in April 2011 successfully showed how laser weapons can protect the U.S. Navy's fleet from small boat threats. In Pacific Ocean tests, employees fired the Maritime Laser Demonstrator from a moving Navy test ship over a three-day period, tracking and

• Laser Type: Solid State Lasers

Description: embody reliability and ease of use. Their energy-efficient and durable construction ensures longevity and consistent operation, making them a cornerstone in the evolution of accessible, high-quality home healthcare solutions.

• Laser Output: Continuous Wave
• Laser Power: 1600 milliwatts
• Laser Type: Laser Diodes
• Operating Current Range: 7000 milliamps

Description: record-breaking, high-energy, solid state lasers. Since that time, Northrop Grumman has invested internal funds to fabricate, integrate, and test a demonstration prototype of the FIRESTRIKE laser called Gamma.

• Laser Type: Solid State Lasers

Description: Low Loss Dielectric Coatings >98% Reflectance All Common Argon-Ion Laser Wavelengths TECHSPEC® High Energy Argon-Ion Laser Mirrors are available for each of the most common Argon-Ion laser wavelengths. Each mirror is designed for a 45° angle of

• Diameter/Width: 12.5 mm
• Incidence: 45º Incidence
• Mirror Materials: Fused Silica
• Surface Flatness: λ/10

Description: Low Loss Dielectric Coatings >98% Reflectance All Common Argon-Ion Laser Wavelengths TECHSPEC® High Energy Argon-Ion Laser Mirrors are available for each of the most common Argon-Ion laser wavelengths. Each mirror is designed for a 45° angle of

• Diameter/Width: 12.5 mm
• Incidence: 45º Incidence
• Mirror Materials: Fused Silica
• Surface Flatness: λ/10

Description: Low Loss Dielectric Coatings >98% Reflectance All Common Argon-Ion Laser Wavelengths TECHSPEC® High Energy Argon-Ion Laser Mirrors are available for each of the most common Argon-Ion laser wavelengths. Each mirror is designed for a 45° angle of

• Diameter/Width: 12.5 mm
• Incidence: 45º Incidence
• Mirror Materials: Fused Silica
• Surface Flatness: λ/10

Description: Low Loss Dielectric Coatings >98% Reflectance All Common Argon-Ion Laser Wavelengths TECHSPEC® High Energy Argon-Ion Laser Mirrors are available for each of the most common Argon-Ion laser wavelengths. Each mirror is designed for a 45° angle of

• Diameter/Width: 25 mm
• Incidence: 45º Incidence
• Mirror Materials: Fused Silica
• Surface Flatness: λ/10

Description: to efficiently generate white light or second, third or fourth harmonic wavelengths. Medical therapy and ultrafast material processing are some typical applications of the high power and high energy picosecond and femtosecond fiber lasers.

• Laser Power: 25 to 50000 milliwatts
• Laser Type: Fiber Lasers
• Laser Wavelength: Violet, Blue, Green, Yellow, Orange, Red, Infrared
• Tunable Laser: Yes

Description: The MTL-5 features self-diagnostic testing and built-in, fail-safe mechanisms designed to monitor system performance and to support system integrity. The laser offers high performance specifications for a variety of scientific and specialist applications. The TEA CO2 laser can

• Laser Output: Pulsed
• Laser Type: Carbon Dioxide Lasers
• Laser Wavelength: Infrared
• Pulse Energy: 150 mJ

Description: -Cd laser is characterized by high energy density, high coherence, high stability of parameters, low divergence and excellent beam quality (a highly pure TEMoo mode). He-Cd laser is applied in research in the field physics (first of all, in semiconductors),

• Features: Polarized Output
• Laser Power: 5 to 150 milliwatts
• Laser Type: Helium Cadmium Lasers
• Laser Wavelength: Ultraviolet, Violet

Description: C-mount packaged laser diodes with a 1470nm wavelength stand at the forefront of laser technology in the medical field, providing a blend of high optical power, precision, and robustness essential for modern healthcare. These diodes deliver the intense laser energy

• Laser Output: Continuous Wave
• Laser Power: 7000 milliwatts
• Laser Type: Laser Diodes
• Operating Current Range: 21000 milliamps

Description: One surface is coated with gold to reflect the incoming high energy laser radiation Material: thin copper sheet Thickness: 0.1524mm / 0.006" Diameter: 9.53mm / 0.375" Finished: Gold Plated and black anodized

• Aperture Tolerance: 0.7500 to 6 µm
• Geometry Type: Pinhole
• Hole Diameter/Slit Width: 5 to 200 µm
• Substrate Material: Metal

Description: RLD90QZW3 realizes a longer detection distance and improved sensing accuracy due to its narrow emission width. ROHM's unique structure makes it possible to achieve high energy conversion efficiency and reduce wavelength fluctuations, and contributes to lower power consumption and

• Laser Type: Laser Diodes
• Operating Current Range: 27 milliamps
• Operating Voltage: 16 volts

Description: Spectral Optics provide high-quality dielectric coated laser mirrors for use with high power/energy and or ultra-fast lasers from UV to IR spectral ranges. Most dielectric coated laser mirrors that Spectral Optics provide guarantee the state of art damage

• Diameter/Width: 12.7 to 50.8 mm
• Incidence: 0º Incidence, 45º Incidence
• Mirror Materials: BK7 Glass, UV Grade Fused Silica
• Surface Flatness: λ/10

Description: -precision micromachining applications. Whether for high-pulse-energy processing of materials such as ceramics, high-repetition-rate processing of materials such as sapphire or silicon, or patterning thin-film solar cells, the Q-Series lasers deliver unsurpassed performance

• Beam Area: 0.3000 mm²
• Laser Output: Q-Switched, Pulsed
• Laser Power: 12000 to 40000 milliwatts
• Laser Type: Laser Diode Modules

Description: Lumentum Q-Series® lasers lead the market for high-power Q-switched diode-pumped UV and green lasers used for a wide variety of high-precision, micromachining applications. Whether for high-pulse-energy processing of materials such as ceramics, high

• Beam Area: 0.2600 mm²
• Laser Output: Pulsed
• Laser Power: 2900 to 11000 milliwatts
• Laser Type: Laser Diode Modules

Description: RLD90QZW6 realizes a longer detection distance and improved sensing accuracy due to its narrow emission width. ROHM's unique structure makes it possible to achieve high energy conversion efficiency and reduce wavelength fluctuations, and contributes to lower power consumption and

• Laser Type: Laser Diodes
• Operating Current Range: 9 milliamps
• Operating Voltage: 16 volts

Description: RLD90QZW5 realizes a longer detection distance and improved sensing accuracy due to its narrow emission width. ROHM's unique structure makes it possible to achieve high energy conversion efficiency and reduce wavelength fluctuations, and contributes to lower power consumption and

• Laser Type: Laser Diodes
• Operating Current Range: 9 milliamps
• Operating Voltage: 14 volts

Description: RLD90QZW8 realizes a longer detection distance and improved sensing accuracy due to its narrow emission width. ROHM's unique structure makes it possible to achieve high energy conversion efficiency and reduce wavelength fluctuations, and contributes to lower power consumption and

• Laser Type: Laser Diodes
• Operating Current Range: 42 milliamps
• Operating Voltage: 16 volts

Description: These industrial laser diodes are energy efficient, stable and reliable. They offer the highest quality and laser performance on the market. The HL40023MG is a high power 404nm, 500mW violet laser diode and perfectly suited for applications such as biomedical

• Laser Output: Continuous Wave
• Laser Power: 10 milliwatts
• Laser Type: Laser Diodes
• Laser Wavelength: Red

Description: The 20QM20EM.25 is a 50.8 mm diameter, 9.65 mm thick High Energy Excimer Laser Mirror coated for 308 nm. Its reflectivity at this wavelength is greater than 99% for both s- and p-polarization, and it is optimized for 45° AOI. Newport's High Energy Excimer

• Diameter/Width: 50.8 mm
• Incidence: 45º Incidence
• Mirror Coatings: Dielectric, Other Mirror Coating
• Mirror Materials: Fused Silica, Other Mirror Material

Description: fewer materials absorb at the infrared wavelength, utilizing 785 nm laser light allows for fluorescence suppression. 785 nm is also a lower energy wavelength as compared to visible light, allowing for analysis of sensitive biological specimens. When combined with the correct equipment,

• CDRH Classification: Class IIIb, Class IV
• Laser Output: Continuous Wave
• Laser Power: 200 to 700 milliwatts
• Laser Type: Laser Diodes

Description: The pulstar p100 features: Average output power of 100W Peak pulse power of 400W (typical) Peak pulse energy of 190mJ (typical) Max pulse width of 600µs Fast rise time of less than 40µs Pulsed up to 100k

• Laser Output: Pulsed
• Laser Type: Carbon Dioxide Lasers