Chromacity 1280 Femtosecond Laser
Product number:
SW11929
Manufacturer:
Chromacity
Product information "Chromacity 1280 Femtosecond Laser"
1280 nm; Pulse Energy 300 pJ; Repetition Rate 100 MHz; Pulse Duration 80 fs; Output Power ≤30 mW
The Chromacity 1280 femtosecond laser generates femtosecond pulses, with a fiber delivery output, to drive advances in test and measurement applications within the semiconductor industry.
While operating at 1280 nm, Chromacity’s ultrafast laser can also generate 80 fs pulses across the 1250 nm to 1310 nm wavelength range, and combined with excellent beam quality, the Chromacity 1280 has scope to broaden fundamental research and material characterization capabilities.
The 1280 nm laser inherits Chromacity’s novel laser design architecture and patented manufacturing expertise to develop a high-performance and truly stable light source, which is operationally ready with minimal set-up time.
Within the range of typical applications for this laser, laser scanning and optoelectronic imaging of integrated circuits is crucial towards optimal semiconductor failure analysis, at a time when the industry faces global chip shortages. With seamless integration into Laser Assisted Device Alteration (LADA) platforms, Chromacity’s robust 1280 nm laser source can help determine soft defect localization, using near-IR microscopy techniques including (2P-LADA).
Further applications include Two-Photon Laser Assisted Device Alteration (2P-LADA), a high-resolution imaging technique which exploits two-photon absorption (TPA) to deliver precise three-dimensional localization of the photocarriers, injected by the TPA process, to accurately locate and characterize failures, with optimum spatial and temporal performance.
Similarly, the Two-Photon Optical Beam Induced Current (TOBIC) technique is another laser-scanning method for imaging integrated circuits. This technique uses ultrashort-pulse lasers to induce a photocurrent which is subsequently mapped to generate an image. TOBIC imaging occurs around 1250 nm to 1550 nm, where the beam is easily transmitted through the silicon band gap.
Key Features:
- Fiber Output
- Compact Laser Housing
- Air-cooled Operation
- Intuitive Web Browser Interface
- Remote Installation Capability
- Output Power: Up to 30 mW From Fiber-coupled Output
- Peak Power: 4kW
- Wavelength: 1280 nm
- Spectral Bandwidth: 80 nm
- Pulse Duration: 80 fs
- Pulse Energy: 300 pJ
- Repetition Rate: Locked to 100 MHz
- Control Interface: Web Browser Interface, Ethernet and Serial Port (RS232) Also Available
- Cooling: Air-cooled
- Electrical: 110-240 VAC, 50-60 Hz, 80 W
- Dimensions 1280 Module: 614 mm x 304 mm x 96 mm (LxWxH)
Applications: Two-photon Laser-assisted Device Alteration (2p LADA) in Silicon Integrated Circuits; Two-photon Optical Beam Induced Current (TOBIC); Material Characterization; Fundamental Research; Interrogating Photonics Integrated Circuits (PIC)
Manufacturer "Chromacity"
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1040 nm; Pulse Energy 5->35 nJ; Pulse Repetition Frequency 100 MHz; Pulse Duration <150 fs; Output Power ≤0.5 ->3.5 W
Chromacity 1040 is a reliable, fixed wavelength, femtosecond laser source for two-photon microscopy that delivers ultrashort pulses with high average powers in the near-IR. Chromacity’s fiber-based femtosecond laser source allows to exploit the well-known advantages of Yb-doped fibers as gain media, while delivering high quality and high-power ultrashort pulses.
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520 nm; Pulse Energy 20 nJ; Pulse Repetition Frequency 100 MHz; Pulse Duration <150 fs; Output Power ≤2 W
Chromacity 520 is a robust and reliable 520 nm fixed wavelength femtosecond laser source for biomedical imaging and semiconductor applications that delivers ultrashort-pulses with high average powers in the green.
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Competitive Price Point
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Chromacity 920 is a highly stable 920 nm femtosecond laser to achieve your two-photon microscopy goals. This 920 nm femtosecond laser is the next generation of fiber-based technology which is enhancing multiphoton imaging with higher resolution and faster acquisition at significant depth.
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Chromacity has developed a range of tunable laser sources which span the short to long IR wavelength regions.
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Compact Laser Housing With an Integrated Pump Source
Coherent Beam With Broadband Coverage
Intuitive Web Browser Interface
Remote Installation Capability
Signal Wavelength: 1.4 µm to 1.8 µm
Pulse Duration: ~1 ps to 5 ps
Signal Average Power: Up to 850 mW (@1.5 µm) and >350 mW Across the Range
Idler Average Power: Up to 350 mW (@3.3 µm) With >200 mW Across the Range
Idler Wavelength: 2.4 µm to 4.2 µm
Pump Source: Fully Integrated Chromacity 1040 Pump Laser
Residual Pump Power (@1040 nm): >300 mW (Depending on OPO Wavelength)
Repetition Frequency: 100 MHz
Beam Diameter: Signal 1 mm to 2 mm, Idler 3 mm to 6 mm
Control Interface: Web Browser Interface, Ethernet and Serial Port (RS232) Also Available
Cooling: Air-cooled
Electrical: 110-240 VAC, 50-60 Hz, 80 W
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Dimensions Control Unit: 483 mm x 285 mm x 86 mm (LxWxH)
Key Features Chromacity Haskeir:
Output Wavelength Tunability: Across 4.5 µm to 12 µm (2000 cm-1 to 850 cm-1)
Output Power: Up to 100 mW @4.5 µm to 7 µm, Up to 20 mW @12 µm
Quasi-CW, Providing Instantaneous Broad Bandwidth Spectra
Repetition Frequency: 100 MHz or 200 MHz Available
Pump Source: Fully Integrated Chromacity 1040 Pump Laser
Remote Installation Capability
Control Interface: Web Browser Interface, Ethernet and Serial Port (RS232) Also Available
Crystals with Different Central Wavelengths Available
Crystal Specifications: Quasi-phase Matching Crystal Design – Wavelength Tuning via Multi-grating (Discrete) or Fan-out (Continuous) Structures
Pump Source: Integrated 1040 Pump Source (Access to Depleted 1040 Pump on Request)
Cooling: Air-cooled, No Water Required
Electrical: 110-240 VAC, 50-60 Hz, 80 W
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Dimensions Control Unit: 483 mm x 285 mm x 86 mm (LxWxH)
Weight: 16 kg (Laser Head), 2 kg (Control Unit)
Applications: Laser Spectroscopy, Including FTIR Spectroscopy, Stand-off Detection, Identification of Volatile Compounds; Nonlinear Physics Research; Material Characterization; Interrogation of Photonics Integrated Circuits (PIC); Multi-species Gas Analysis; Telecoms; Quantum Research; Explosive Detection
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Manufacturer: