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OZ Optics, a recognized provider of fiber optic components, laser sources, and photonic instrumentation, is featured on GoPhotonics for its focused portfolio of fiber optic components, laser sources, and photonic instruments supporting precision measurement, imaging, and optical communication systems. Spanning ultraviolet, visible, and near-infrared spectral regions, its solutions enable accurate light generation, polarization control, spectral analysis, power measurement, and timing management. With an emphasis on low loss, high stability, and integration-ready design, OZ Optics supports applications across biomedical imaging, photonics research, telecommunications, quality control, and advanced optical system development.

PFPC-11-800-S-5/125-XX-1-1 - Polarization Controller for Optical Coherence Tomography

The PFPC-11-800-S-5/125-XX-1-1 is a polarization controller specified to provide precise polarization control at an operating wavelength of 800 nm, indicating suitability for near-infrared interferometric and imaging systems. Low insertion loss and a high polarization extinction ratio specify efficient polarization manipulation with minimal signal degradation, which is critical for maintaining measurement accuracy. The defined return loss options specify strong back-reflection suppression for different connector finishes, supporting stable operation in sensitive optical setups. Compatibility with single-mode and polarization-maintaining fibers specifies flexible integration into fiber-based systems, while support for controlled fiber coating dimensions specifies robustness and handling reliability. Collectively, these specifications indicate that the device is well suited for polarization-sensitive applications such as fiber launching, polarization-dependent loss measurements, fiber lasers, fiber interferometers, and optical coherence tomography systems.

OZ-3000 Series - Fiber Pigtailed Laser for Cytometry Applications

The OZ-3000 Series is a fiber pigtailed laser specified to provide stable laser emission across a wide spectral range from 375 nm - 2050 nm, indicating versatility for ultraviolet, visible, and near-infrared photonic systems. High output power capability combined with tight wavelength stability specifies consistent spectral performance, while strong short-term and long-term power stability with low RMS noise specifies suitability for precision measurements and imaging tasks. Support for both analog and digital modulation specifies flexible intensity control for dynamic and high-speed applications. Compatibility with single-mode, multimode, and polarization-maintaining fibers specifies broad system integration options, further enhanced by optional beam conditioning at the fiber output. Long operational lifetime and integrated ESD protection specify reliability in laboratory and industrial environments, while multiple control interface options specify ease of system integration. Collectively, these specifications indicate that the OZ-3000 Series is well-suited for demanding applications such as confocal microscopy, medical imaging, including OCT, flow cytometry, DNA sequencing, optical testing, fiber delivery systems, and advanced photonics research and manufacturing.

DTS0193 - Spectrometer for Quality Control & Testing Applications

The DTS0193 is a spectrometer that operates at a wavelength of 200 nm - 800 nm. Its specified optical resolution indicates the ability to resolve fine spectral features across the ultraviolet to visible range, while flexible integration timing, low dark noise, and a high signal-to-noise ratio specify suitability for accurate and repeatable measurements. The grating characteristics and low stray light specification indicate effective spectral dispersion with minimal measurement artifacts, supported by a wide dynamic range for capturing both weak and strong signals. Fiber-coupled operation with defined numerical aperture specifies efficient light collection, while the integrated filter and sensor-side optics specify suppression of unwanted spectral orders and improved detection efficiency. Advanced triggering, accumulation, and averaging modes specify adaptability for both static and dynamic measurements, and compact ruggedized packaging specifies readiness for field and OEM deployment. Collectively, these specifications indicate that the spectrometer is well-suited for full-spectrum analysis, quality control, chemical and pharmaceutical testing, food inspection, and agricultural applications.

POM-300-IR - Optical Power Meter for Quality Control & Measurement

The POM-300-IR is an optical power meter that operates at a wavelength of 800 nm - 1650 nm. Its calibrated wavelength set across common telecom and laser bands specifies accurate power measurement over a broad near-infrared range, while fine resolution, good linearity, and defined accuracy specify reliable detection of small power variations. The wide dynamic measurement range specifies suitability for both low-level signal analysis and higher power testing, supported by selectable sampling rates that specify flexibility between faster monitoring and more stable readings. Support for multiple measurement units specifies convenience for different test standards and workflows, while the integrated backlight and protective housing specify usability in laboratory and field environments. Broad compatibility with standard fiber optic connectors and universal receptacles specifies seamless integration into diverse fiber systems, indicating suitability for fiber optic assembly and testing, quality control, network installation, troubleshooting, education, and general optical power measurement tasks.

Differential Polarization Delay Lines - Optical Delay Lines for Sensing Applications

The Differential Polarization Delay Lines are optical delay lines (ODL) that operate at a wavelength of 1480 nm - 1550 nm. Their specified delay range and fine delay resolution indicate precise control of differential optical path length, which is essential for compensating polarization-related timing effects. Low insertion loss, low polarization dependent loss, and multiple return loss options specify minimal signal degradation and strong suppression of back reflections, supporting stable system performance. High zero-delay accuracy, repeatability, and controlled tuning speed specify reliable and repeatable delay adjustment for dynamic measurements and system calibration. Electronic control with position sensing specifies safe operation and accurate status monitoring, while compatibility with standard single-mode fiber and common connector types specifies ease of integration into fiber-based systems. Collectively, these specifications indicate suitability for polarization mode dispersion compensation, PMD emulation, time-division multiplexing bit alignment, interferometric sensing, and coherent high-speed telecommunications applications.

With its comprehensive portfolio of fiber optic components, laser sources, and photonic instrumentation, OZ Optics Ltd. continues to advance precision, stability, and reliability across modern optical systems. By leveraging strong expertise in polarization control, laser generation, spectral measurement, power monitoring, and optical delay management, the company delivers solutions that enable accurate signal conditioning, measurement, and system optimization. OZ Optics’ commitment to low-loss design, performance consistency, and application-focused engineering positions its products as trusted building blocks for biomedical imaging, photonics research, high-speed telecommunications, quality control, and advanced optical system development.