800um multimode fiber connector

Large-core fiber optic connectors offer excellent performance. Unlike the multimode fibers (50/125, 62.5/125) widely used in fiber optic communication systems, large-core fibers are typically used for transmitting higher laser power and operating in specific wavelength bands. Furthermore, due to their large core diameter and high numerical aperture, the uniformity and stability of light splitting in large-core fibers are subject to interference from various factors (such as laser mode and laser injection method). Building on years of foundational experience in high-energy laser transmission experiments and research into the reliability of military-grade components, we can now provide fiber optic connector products with core diameters ranging from 125um to 1500um, as well as large-core fiber products operating across the full wavelength spectrum. These products possess extremely high resistance to high-power laser damage and offer excellent environmental reliability.

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400-1000nm Silicon-based Amplified Photodetector, Active area Φ150μm

IdealPhotonics’ silicon-based amplified photodetector covers the wavelength range of 200nm to 1100nm, with fixed gain for quantitative photoconversion. It ensures high bandwidth performance while providing sufficient gain, ideal for fast and weak-light photodetection applications. It offers excellent performance, high cost-effectiveness, and technical support. Commonly used in UV and visible light measurements.

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InGaAs Gain adjustable balance detector 800-1700nm AC 800MHz

The detector can adjust the gain conveniently and quickly through software, with a gain adjustment range of up to 31dB and a maximum gain of up to 60KV/A. During the gain adjustment process, the adjustment speed is fast, the noise is low, and the output signal-to-noise ratio and signal bandwidth are not affected, which is particularly suitable for scientific research and equipment integration.

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600um multimode fiber connector

Large-core fiber optic connectors offer excellent performance. Unlike the multimode fibers (50/125, 62.5/125) widely used in fiber optic communication systems, large-core fibers are typically used for transmitting higher laser power and operating in specific wavelength bands. Furthermore, due to their large core diameter and high numerical aperture, the uniformity and stability of light splitting in large-core fibers are subject to interference from various factors (such as laser mode and laser injection method). Building on years of foundational experience in high-energy laser transmission experiments and research into the reliability of military-grade components, we can now provide fiber optic connector products with core diameters ranging from 125um to 1500um, as well as large-core fiber products operating across the full wavelength spectrum. These products possess extremely high resistance to high-power laser damage and offer excellent environmental reliability.

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350-1100nm Silicon-based Amplified Photodetector, Active area 3.6×3.6mm

IdealPhotonics' silicon-based amplified photodetector covers 190nm–1100nm with 8 adjustable gain settings, providing quantitative photoelectric conversion and a wide dynamic range. It is suitable for UV and visible light measurements, offering excellent performance and cost-efficiency.

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High-speed photodetector InGaAs-1.5/3.6um-1G/250ps-S

Monitors pulse energy and/or pulse shape of lasers with GHz-level speed, spanning visible and near-infrared wavelengths, and extremely low noise equivalent power (NEP). BNC output connector.

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532nm CW Single-frequency Narrow Linewidth DPSS Laser (100mW)

IdealPhotonics offers a 532nm CW single-frequency narrow linewidth DPSS laser that utilizes their proprietary self-aligning resonator technology. The AMR design integrates the resonator of the LMX series single-longitudinal-mode lasers into a compact optical component with extremely low loss. The self-aligning resonator technology ensures the long-term reliability, temperature stability, and insensitivity to mechanical vibrations of the single-longitudinal-mode laser. The 532nm single-longitudinal-mode laser has a linewidth of far less than 1 MHz, power stability：＜ 5 urad/°C, a beam quality of less than 1.1, and a maximum power of up to 2W. This is a highly cost-effective product for applications in Raman detection, interferometric measurement, holographic storage, biosensing, confocal microscopy, material analysis, and other field

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632.8nm HeNe laser 1.2mw

Our 1.2mW red (632.8nm) cylindrical HeNe lasers are designed in a tube, which makes them easy to install in almost all optical systems. The lasers of these lasers are linearly polarized light (200:1) or randomly polarized. The linearly polarized light is polarized in the vertical direction relative to the cable at the rear of the laser housing, and comes with an external power supply and power cord. The laser of the B-type intracavity HeNe laser is separated from the power supply. Turning the laser power switch will not affect the adjusted optical path. The laser is covered with an alloy aluminum tube with a plastic-sprayed surface. This makes the laser sturdy and beautiful. The power supply uses a switching power supply and a metal housing. The power housing is grounded, and the laser is connected to the power supply with a silicon high-voltage wire.

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1570nm wavelength single mode fiber coupled laser 10 dBm

The 1570nm single-wavelength laser uses a high-performance butterfly-shaped semiconductor laser chip. Professionally designed drive and temperature control circuits ensure the safe operation of the laser, stable output power and spectrum. It is suitable as a pump laser source for thulium-doped fiber lasers or fiber amplifiers, and can be provided in desktop or modular packages.

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1550nm thermally insensitive packaged fiber Bragg grating

Fiber Bragg gratings are widely used as wavelength filters in the communication field. The central wavelength of the fiber Bragg grating is highly sensitive to external temperature changes. This packaging utilizes unique technology to ensure that the central wavelength of the grating is unaffected by temperature variations.

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1550nm Single Mode Broadband Single Window Coupler Mini

Idealphotonics' mini 1x2 (2x2) single-window broadband fiber couplers provide high performance and high reliability over broadband with precise optical signal splitting ratios in a small or sub-miniature package. These couplers have excellent uniformity, low loss, and very low polarization sensitivity, and are available in a variety of splitting ratios, wavelength ranges, fiber types, and connector options. All devices can handle high optical powers up to 4W and are tested according to industry standard procedures. Reliability is guaranteed through rigorous testing to fully meet the requirements of Telcordia GR-1221. We can provide custom designs to meet specialized functional applications. We also offer full environmental testing options. This is a special option for fiber optic systems in aerospace grade applications.

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1550nm mini fiber optic circulator

The mini optical fiber circulator from Idealphotonics is a compact structure designed specifically for applications with limited space. In addition to its smaller size, its foldable design ensures that all fiber ports are located on the same side, minimizing fiber occupation space. It is a compact, high-performance component with high isolation, low insertion loss, low PDL, and excellent stability and reliability. The fiber circulator directs the incoming signal from port 1 to port 2, and from port 2 to port 3.

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