新品发布
Tilted Fiber Bragg Grating
Tilted fiber Bragg grating is an advanced passive fiber optic device, whose internal refractive index modulation grating plane forms a specific angle (tilt angle) with the fiber axis. TFBG continuously couples the fundamental mode energy transmitted in the core to a series of different order cladding modes through its tilted refractive index modulation structure, while satisfying the phase matching condition.
7-Core Fiber Fan-In/Fan-Out Device
Multi-core fiber fan-in/fan-out devices are key components for achieving efficient coupling between multi-core fibers and standard fibers. These products are manufactured using proprietary technologies with independent intellectual property rights and modular packaging. They feature low loss, low crosstalk, high return loss, and high reliability. Standard products as well as customized solutions are available. They are suitable for applications in optical communication, optical interconnection, optical sensing, and other related fields.
Three-Mode MDM Device
Our series of mode multiplexers/demultiplexers and mode converters are manufactured through a unique process design. They feature advantages such as low loss, low crosstalk, and a broad operating wavelength range, and are fully compatible with the few-mode fibers (FMFs) developed by our company. As key components for enabling mode multiplexing and demultiplexing, they are well suited for applications in optical transmission, optical sensing, scientific research, and other fields. We also provide comprehensive solutions for mode couplers tailored to few-mode fibers and multi-core few-mode fibers, along with customized services.
MEMS Optical Switch Module
The matrix optical switch is a high-performance, modular all-optical signal matrix switch. It adopts MEMS technology and switching control technology, uses light as the signal transmission medium, and features strong anti-interference ability and small signal attenuation amplitude.
Phase-stable Test Cable
The microwave test cable is a durable and cost-effective testing solution, widely used in various testing scenarios and system interconnections due to its excellent performance. It features an ultra-stable cable design and wear-resistant stainless steel connectors, allowing for prolonged and stable connection cycles.This makes it especially suitable for use in production lines, laboratories, and field environments.Moreover, this test cable is also highly competitive when applied in system interconnection applications.
MEMS Optical Switch Module
This model of optical switch module (hereinafter referred to as MEMS optical switch) is a module product with multi-channel optical path switching function. The MEMS optical switch product is an optical switch manufactured using the electrostatically driven micro-mirror scheme, featuring small size, fast response speed and stable performance, and can be widely used in various optical communication and testing systems.
1435-1465-1475nm FP High-power Laser Diode with FBG 500mW
The AF4B2 series GB/GC type is a pump Laser diode module in the 1.4μm band developed for Fiber Raman amplifier. The output power is up to 500mW with PM fiber output, and 14 Pin butterfly package. It has build-in TEC, PD and thermistor.
1550nm single-mode acousto-optic modulator 80MHz
Idealphotonics' acousto-optic modulators are widely used in the field of fiber optic sensing due to their high modulation extinction ratio and high power handling. This product is specially developed for the application needs of fiber optic sensing. It has the advantages of small size, low power consumption (<1W), fast rise time (12ns), good modulated pulse shape (small overshoot), good pulse repeatability (small repetition period jitter), etc. In addition, the modulator and driver can be packaged in an integrated manner, which is convenient for system integration. It can be widely used in various fiber optic sensing systems that require pulse modulation, such as φ-OTDR, BOTDR, OFDR, etc.
Capillary Optical Fiber Inner Diameter 75±2μm (Polyimide Coatin
It can be widely used in the fields of sensing, energy transfer, and lasers, such as: vacuum ultraviolet high-energy pulse compression and shaping in vacuum ultraviolet femtosecond laser generation; vacuum ultraviolet dispersion wave generation; soliton blue shift; preparation of extrinsic fiber interferometers; absorption spectrum gas component detection; liquid phase biochemical detection and connection of optical microfluidic chips, etc. Quartz capillaries are widely used in separation science, including hot fields such as gas chromatography, capillary liquid chromatography, and capillary electrophoresis. Since its introduction in the late 1970s, the product quality has been steadily improving. Light-guiding quartz capillary fiber is a new development in this continuous development.
7.4um QCL combined with hollow core fiber gas absorption cell analysis system (experimental analysis of H2O, dihydrogen monoxide and water in the air)
5.26μm Low-Power Benchtop DFB-QCL Mid-Infrared Quantum Cascade Laser, 10mW (TDLAS Integrated Control Module)
The QCL5260-5.26um Low Power Desktop DFB-QCL Mid-Infrared Quantum Cascade Laser is a domestically leading, ultra-low power QCL-DFB laser developed by Idealphotonics in the first half of 2018. It offers a tunable range of over 100 nm and an output power greater than 40 mW, meeting industrial needs such as gas sensing for customer testing. The laser provides collimated output with stable power and superior temperature and wavelength stability, surpassing the stability of traditional high-power quantum cascade lasers by several orders of magnitude. This makes it an excellent test source for our mid-infrared testing customers.
7.4um Low-Power Desktop DFB-QCL Mid-Infrared Quantum Cascade Laser 5mW (Desktop Light Source)
QCL7400 - 7.4um low-power benchtop DFB-QCL mid-infrared quantum cascade laser is a domestically advanced ultra-low-power QCL DFB laser developed by Idealphotonics in the first half of 2018. The tunable range exceeds 100nm, and the output power is greater than 20mw to meet the industrial needs of customers testing gas sensors. Our laser collimated output has stable output power and high temperature and wavelength stability, which is several orders of magnitude higher than the stability of traditional high-power quantum cascade lasers. It provides an excellent test light source for our mid-infrared test customers.