633nm 1m long distance fiber collimator single mode

Idealphotonics' fiber collimators are pre-aligned and used to collimate the light emitted from FC/APC-connected fibers with diffraction-limited performance. These fiber collimators have no moving parts and are compact, making them easy to integrate into existing devices. Currently supported operating bands include 532/633/780/850/915/1064/1310/1550nm.

1550nm Polarization-Maintaining Fiber Polarization Combiner

The Polarization Beam Splitter (PBS/PBC) is used to couple two orthogonal polarized light beams into a single optical fiber, or to couple the orthogonal polarized light from a single output into two separate optical fibers. It can also be used in reverse to couple two orthogonal polarized light beams from a polarization-maintaining fiber into a single-mode output fiber. These devices are commonly used for power combining in pump lasers, improving the power of fiber lasers. An important application of these devices is in polarization multiplexing and demultiplexing technology, which enhances the capacity of optical systems.

5nm fused taper ultra-narrowband wavelength division multiplexer 1550/1555nm bandwidth ±0.5n

Fused taper ultra-narrowband wavelength division multiplexer refers to a one-time taper wavelength division multiplexer with a wavelength interval of 5nm. Fused taper wavelength division multiplexing refers to a technology that transmits multiple wavelength optical signals in one optical fiber at the same time. With the development of optical communication systems, it is widely used in optical fiber sensors, optical fiber lasers, optical fiber amplifiers (EDFA), high-speed multi-wavelength transmission, etc. In the wavelength range, an optical communication system with multiple wavelengths on a pair of optical fibers or a single optical fiber is required, where the interval between each wavelength is 5nm. In this case, the wavelength division multiplexing with a smaller channel interval in the same window is called ultra-narrowband wavelength division multiplexing SUNBWDM, which has low loss, good stable performance, simple maintenance and convenient power supply.

1310nm Single-Mode Fiber Reflector

Examples of fiber total reflection mirrors used in erbium-doped fiber amplifiers. In this application, a fiber-based back reflector is placed at the end of an erbium-doped fiber, reflecting light back into the fiber in the direction of the incident light. A circulator is used to direct both the input and amplified output signals along their respective optical paths. This setup allows the signal light to pass through the gain fiber twice, effectively enhancing the amplifier's gain absorption efficiency. Another practical application of back reflectors is the construction of tunable back reflectors, as shown in Figure 2. Feedback signals from a downstream back reflector can cause instability in certain devices, such as laser diodes. By incorporating a tunable back reflector, the sensitivity of a device to back reflection can be determined. A tunable attenuator enables users to introduce a controlled reflection into the system. By analyzing the effects of back reflection, users can calculate parameters such as noise level, bit error rate, and distortion.

Interferometric Single-Mode Micro-Nano Fiber Sensor 1270-2000nm

The micro-nano fiber sensor has characteristics such as compact size, flexible structure, and strong transient field. It can measure the refractive index of surrounding liquids to detect slight biochemical changes. Reported types of micro-nano fiber refractive index sensors include grating-based and resonator-based sensors. Through structural design and optimization, we have developed several interferometric micro-nano fiber refractive index sensors with advantages such as high refractive index sensitivity, low temperature sensitivity, and low manufacturing cost. Research progress in interferometric micro-nano fiber sensors includes high-birefringence micro-nano fiber ring sensors, cascaded long-period grating sensors, and micro-nano fiber interferometric sensors based on single-taper structures. By designing and optimizing the interferometer's geometric structure, we have achieved refractive index sensing sensitivity at the level of 104 nm/RIU, providing an option for the development of low-cost, highly sensitive optical biochemical sensors.

633nm 1m long reach fiber collimator polarization maintaining armored

Idealphotonics' fiber collimators are pre-aligned and used to collimate the light emitted from FC/APC-connected fibers with diffraction-limited performance. These fiber collimators have no moving parts and are compact, making them easy to integrate into existing devices. Currently supported operating bands include 532/633/780/850/915/1064/1310/1550nm.

Hexagonal Microstructured Optical Fiber for Supercontinuum White Light Source Core Diameter: 5.0 ± 0.3 ?

Supercontinuum white light sources are based on the broadening of pulse spectrum produced by nonlinear effects. Compared with other materials or ordinary optical fibers, the microstructured optical fiber designed by us for supercontinuum white light sources has excellent dispersion adjustment ability and can obtain efficient optical frequency conversion. The light source system can be widely used in spectral analysis, optical fiber testing, sensing and other fields.

633nm 1m long reach fiber collimator polarization maintaining

Idealphotonics' fiber collimators are pre-aligned and used to collimate the light emitted from FC/APC-connected fibers with diffraction-limited performance. These fiber collimators have no moving parts and are compact, making them easy to integrate into existing devices. Currently supported operating bands include 532/633/780/850/915/1064/1310/1550nm.

Ultra-low noise laser diode linear driver module

LDRVMLN is a current drive and temperature control module for butterfly semiconductor laser diodes. Its main functions include: controlling the internal temperature of the laser, generating a constant current signal to drive the laser, and converting the external input voltage signal into a current drive. The module has three Max. current drive ranges, suitable for lasers of different power sizes (selected by circuit board jumpers). The built-in reference source has an extremely low noise level and can achieve 16-bit control accuracy. Both current and temperature parameters can be stored on the module, and the laser can be run with these parameters via a simple external trigger signal. This makes the module a plug-and-play, ultra-high stability laser light source.

532nm 1m long distance fiber collimator single mode

Idealphotonics' fiber collimators are pre-aligned and used to collimate the light emitted from FC/APC-connected fibers with diffraction-limited performance. These fiber collimators have no moving parts and are compact, making them easy to integrate into existing devices. Currently supported operating bands include 532/633/780/850/915/1064/1310/1550nm.

1310nm benchtop with software control DFB laser 10mW

Idealphotonics' benchtop software-controlled DFB light source is based on an advanced microprocessor control system, combined with high-precision ATC and ACC (APC) control circuits to achieve high and stable output of the laser, while ensuring that the light source is quick and intuitive to operate. We can also provide corresponding communication interfaces and control software according to user requirements to achieve computer control. This light source uses a one-key recovery function (Run/Stop button), which can effectively help customers return to the previous working state. This is a highly integrated modular system light source, which uses PC-side software intelligent control. Customers can set the required working temperature and current according to their needs. It is very suitable for experimental scientific research and production testing. In addition, we need to modulate the laser for some application fields. We have connected two modulation ports, one for high frequency and one for low frequency, to better meet customers' needs for multiple uses of one machine.

532nm 1m long reach fiber collimator, polarization maintaining

Idealphotonics' fiber collimators are pre-aligned and used to collimate the light emitted from FC/APC-connected fibers with diffraction-limited performance. These fiber collimators have no moving parts and are compact, making them easy to integrate into existing devices. Currently supported operating bands include 532/633/780/850/915/1064/1310/1550nm.