400-863-9100

Bestec GmbH(德国)

https://www.bestec-berlin.de

地址:
Am Studio 2b D-12489 Berlin Germany
电话:
+49 30 677 4376
传真:
+49 30 677 5718
产品:
光谱分析仪 

公司简介

Bestec GmbH is an owner-operated medium-sized German company developing and building customized instruments for R&D applications.

Initially, after founding Bestec GmbH in Berlin-Adlershof in 1990, the focus of our activities were femtosecond lasers and related components for synchronization and diagnostics.


产品列表

Plane Grating Monochromator

Variable included angle monochromators, usualy refered to as plane grating monochromators (PGM), allow for a fixed focal length as a function of photon energy. PGMs combine ultra-high precision, repeatability and stability with a robust design for safe and reliable operation.…

Constant-Strut-Length-Hexapod

The constant-strut-length hexapod mechanism is well suited for mirror manipulation in UHV, especially for combined beam switching and beam splitting or for mirror exchange. The parallel-kinematic approach allows for free definition of the rotation center for pitch, roll and yaw,…

Precision Slit Unit

Precision slit units open symmetrically and feature exceptional blade parallelism and straightness at a wide opening range. They are designed and built using well-proven modules and principles combining ultra-high precision and repeatability with a robust design for reliable operation. Each…

Spectrometer

Spectrometers at synchrotron radiation beamlines are used to analyze and detect soft and hard X-ray radiation, which is elastically and inelastically scattered from a specimen placed in the interaction center of the experimental station.

Surveying, Installation & Alignment

Bestec offers surveying, installation, alignment and calibration of large machines, especially of customized optical instruments, using laser trackers, 3D measuring arms, theodolites, automatic optical levels and autocollimators.

FEA Simulations

Bestec offers finite element analysis (FEA) to minimize mounting and illumination induced deformation of optical elements. Stress and deformation analysis of components under high thermal and mechanical load is used to assist and verify the mechanical design.

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