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OPOWER HANS DR

Overview
  • Total Patents
    14
About

OPOWER HANS DR has a total of 14 patent applications. Its first patent ever was published in 1967. It filed its patents most often in Germany and Switzerland. Its main competitors in its focus markets optics, surface technology and coating and measurement are TSUKUBA ASGAL KK, AHHC OPTOELECTRONIC TECH CO LTD and HIGH Q LASER PRODUCTION GMBH.

Patent filings in countries

World map showing OPOWER HANS DRs patent filings in countries
# Country Total Patents
#1 Germany 13
#2 Switzerland 1

Patent filings per year

Chart showing OPOWER HANS DRs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Opower Hans Dr 12
#2 Baeuml Wolfgang 2
#3 Skribanowitz Nikolaus 2
#4 Weyer Volker 1
#5 Ziegler Friedrich 1
#6 Paisdzior Horst 1
#7 Haensel Klaus Ing Grad 1
#8 Woestenbrink Ulrich 1
#9 Opower Hans 1
#10 Prof Kaiser Wolfgang Dr 1

Latest patents

Publication Filing date Title
DE2934048B1 Process for the electrical excitation of CO2 high-power lasers and device for carrying out the process
DE2934049B1 Method for the selective detection of radiation from a CO2 laser
DE2919708B1 Pulsed CO2 laser
DE2910177A1 Carbon di:oxide gas laser - has tube with dielectric wall holding high voltage anode and cover guiding cathode tube
DE2813611A1 Optical transmitter using continuous wave and pulsed lasers - sharing semi-transparent high reflectance mirror between facing ends
DE2735299A1 Electrically excited gas laser - has discharge space which is limited by two concentric cylindrical surfaces, and is excited by HF electromagnetic fields
DE2636305A1 Yttrium aluminium perovskite laser crystals - grown from a melt in a hard vacuum to eliminate impurities causing colour centres
DE2608830A1 Gas laser with closely limiting side walls - uses discharge chamber as waveguide whose surfaces are formed by two concentric cylindrical shells
DE2505771A1 Carbon dioxide high power pulsed laser - has gas mixture subjected to initial partial expansion to ensure homogeneity for high efficiency
CH510461A Monocrystals by modified verneuil melt flow process