Vacuum Chambers

Kimball Physics Multi-CF™ ultra-high vacuum chambers are designed to maximize interior volume; to provide easy internal access; and to permit complex arrangement and support of apparatus. The resulting compactness in vacuum chambers improves instrument performance, requires smaller pumping systems, and ensures easier portability. Highly polished 316L stainless steel with minimal welds and contoured inner surfaces optimizes UHV performance.

Kimball Physics Multi-CF™ vacuum chambers are compatible with industry standard Conflat vacuum flanges.

If you can't find a vacuum chamber that meets your requirements contact us. Custom requests are welcomed.


Spherical Cubes
UHV chambers in a basic cube design with 6 major ports on 3 axes and additional small ports arranged symmetrically

Spherical Triangles
UHV chambers with 3 equally spaced radial ports between 2 parallel ports

Spherical Squares
UHV chambers with 4 equally spaced radial ports between 2 larger parallel ports

Spherical Pentagons
UHV chambers with 5 equally spaced radial ports between 2 larger parallel ports

Spherical Hexagons
UHV chambers with 6 equally spaced radial ports between 2 larger parallel ports

Spherical Octagons
UHV chambers with 8 equally spaced radial ports between 2 larger parallel ports

Other Chambers
UHV chambers having 10 or 16 radial ports and double spherical cubes