Kimmon Koha Co., Ltd.
Company Description
Kimmon is a manufacturer of HeCd lasers for 46 years. Our goal is to provide the highest quality leading edge HeCd lasers in the world to our customers. To achieve this goal we build, produce, assemble, and process almost everything for our HeCd lasers in-house. Although this is more expensive than subcontracting, this allows us to control the whole manufacturing process. The KIMMON KOHA manufacturing system is our unparalleled feature of gathering data on each laser system. This data collection enables us to prevent potential problems with each laser prior to shipment.
Chief Spectroscopic Techniques Supported
- Raman Spectroscopy
- Fourier Transform Spectroscopy
- Multiplex or Frequency-Modulated Spectroscopy
Markets Served
Kimmon Koha serves markets world-wide, and aplications including various spectroscopy, photoluminescence, volume holographic gratings, 3D printing, holography, automatic optical inspection, alignment, marking, and more.
Major Products/Services
- 325 nm HeCd lasers
- 442 nm HeCd lasers
- 325 nm & 442 nm dual wavelength HeCd lasers
- 1064 nm fiber laser
Facility
Kimmon Koha's factory is located in the Northern part of Japan. The facility has equipment such as high vacuum oven chambers, ultra-sonic cleaners, glass blowers, constant temperature and humidity chambers, and various equipment required for the manufacturing of our lasers.
Kimmon Koha Co., Ltd.
1-53-2 Itabashi, Itabashi-Ku, Tokyo, 173-0004 Japan
TELEPHONE
3-5248-4820
FAX
3-5248-0021
E-MAILjapan@kimmon.com
WEB SITEwww.kimmon.com
NUMBER OF EMPLOYEES
USA: 2
Elsewhere: 35
YEAR FOUNDED
1904
Getting accurate IR spectra on monolayer of molecules
April 18th 2024Creating uniform and repeatable monolayers is incredibly important for both scientific pursuits as well as the manufacturing of products in semiconductor, biotechnology, and. other industries. However, measuring monolayers and functionalized surfaces directly is. difficult, and many rely on a variety of characterization techniques that when used together can provide some degree of confidence. By combining non-contact atomic force microscopy (AFM) and IR spectroscopy, IR PiFM provides sensitive and accurate analysis of sub-monolayer of molecules without the concern of tip-sample cross contamination. Dr. Sung Park, Molecular Vista, joined Spectroscopy to provide insights on how IR PiFM can acquire IR signature of monolayer films due to its unique implementation.
Achieving Accurate IR Spectra On Monolayer of Molecules
April 18th 2024Creating uniform and repeatable monolayers is incredibly important for both scientific pursuits as well as the manufacturing of products in semiconductor, biotechnology, and. other industries. However, measuring monolayers and functionalized surfaces directly is. difficult, and many rely on a variety of characterization techniques that when used together can provide some degree of confidence. By combining non-contact atomic force microscopy (AFM) and IR spectroscopy, IR PiFM provides sensitive and accurate analysis of sub-monolayer of molecules without the concern of tip-sample cross contamination. Dr. Sung Park, Molecular Vista, joined Spectroscopy to provide insights on how IR PiFM can acquire IR signature of monolayer films due to its unique implementation.
