400-863-9100

BaySpec Inc.(美国)

http://www.bayspec.com

地址:
1101 McKay Drive San Jose, CA 95131 USA
电话:
+1 408 512 5928
传真:
+1 408 512 5929
产品:
放大自激发射  放大器  摄像机  CCD摄像机  光纤放大器  光纤光学  光纤  激光光谱学  激光  显微镜  窄线宽激光器  光数据传输  光纤通信  光电探测器  拉曼光谱  光谱分析仪  波分复用 

公司简介

BaySpec公司成立于2000年,位于美国加利福尼亚州的硅谷Fremont,是领先的光学器件、光模块及子系统供应商。基于起自主知识产权,BaySpec设计,制造和销售先进的光谱仪器,包括UV-VIS-NIR光谱仪、近红外和拉曼分析仪等其它微型光谱仪器,还有软冷却/深冷却探测器和摄像机、激光等其它光学器件产品,非常适合用于生物制药、化工、食品、半导体、国土安全、光纤传感和光通信行业。


产品列表

Telecom & Fiber Sensing

BaySpec designs, manufactures and markets advanced spectral instruments and light sources for the telecommunications and fiber optic sensing industries, with more than 35,000 units deployed around the globe.

Optical Telecom


Spectroscopy

BaySpec designs, manufactures and markets advanced spectral instruments, from UV-VIS-NIR spectrometers to research-grade Raman analyzers and microscopes.

Mass Spectrometry

  • Portability™ Transportable Mass Spectrometer

Raman Spectrometers

Raman Microscopes

  • Nomadic™ Research-Grade Raman Microscope

  • MovingLab™ Transportable Microscope

Hyperspectral Imagers

Spectrometers


应用领域

Biological

Optical spectroscopy is increasingly used for both academic and commercial purposes in the study of biology, including tissue and disease characterization, cellular microanalysis, food inspection, and microbe identification, among others. Raman spectroscopy, in particular, has been used extensively for these … More »

Materials

Material characterization is an ideal application area for Raman spectroscopy, due to its high chemical specificity and rapid, non-contact measurement. Solid, liquid, or gaseous, nearly all materials possess a unique Raman spectral fingerprint. The technique can be readily scaled to … More »

Pharmaceutical

Raman spectroscopy is becoming the state-of-the-art in a variety of pharmaceutical applications, from high-throughput screening in drug discovery to manufacturing and quality control. Because of the technique’s inherent non-contact manner, Raman measurements can be obtained in a variety of environments … More »

Forensic

Raman spectroscopy is a powerful analytical tool for the study of forensic materials; it has the ability to analyze small samples down to pico-mole quantities with molecular specificity. The ability to investigate both organic and inorganic compounds, volatile and nonvolatile … More »

Remote Sensing

Remote sensing has a wide range of applications in many different fields, including ground survey and monitoring, precision agriculture, terrestrial characterizing, hazard assessment, natural resource management etc. BaySpec’s OCI™-UAV hyperspectral imagers are ultra-compact, easily deployable, high-performance hyperspectral cameras designed specifically …More »

Semiconductor

Raman spectroscopy has proven to be one of the most effective tools for characterization of semiconductor properties and for manufacturing process/quality control because materials such as Si, SiGe, InGaAs, GaAs, GaN, and graphene exhibit precise, distinct Raman bands.  Applied in …More »

Process/Reaction

Unlike conventional UV-Vis and NIR monitoring techniques, Raman spectroscopy provides molecular specificity in real-time measurements of gas, liquid, and solid samples, both natural and synthetic. These attributes are responsible for the emerging reliance on Raman spectroscopy for a number of … More »

Geoscience

Raman spectroscopy is a powerful tool for field-based geology and planetary exploration. From the first lunar materials brought back by the Apollo missions to gemstone identification, mineralogists and geologists increasingly are relying on Raman spectroscopy. The Raman bands of major … More »

Surface-Enhanced Raman

Surface-enhanced Raman spectroscopy (SERS) utilizes specialized metal substrates to allow Raman signal enhancement up to 10 orders of magnitude. This phenomenon occurs when the molecules of interest are in very close proximity to the metal substrate, and is generally used … More »

Telecommunications

The modern expansion of computer and telecommunications has created a dramatic increase in the volume of worldwide data traffic that places increasing demands on communication network bandwidth. To meet this demand, fiber optic networks and dense wavelength-division-multiplexing (DWDM) communications systems … More »

分享到 :