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For the Inventor, By the Inventor

Pleasanton, CA, United States of America

Helmuth E Meissner

USPTO Granted Patents = 15 

Average Co-Inventor Count = 1.9

ph-index = 9

Forward Citations = 413(Granted Patents)


Company Filing History:

goldMedal9 out of 9 
 
Onyx Optics, Inc.
 patents
silverMedal2 out of 2 
 
Maxios Laser Corporation
 patents
bronzeMedal1 out of 1 
 
Onxy Optics, Inc.
 patent
41 out of 11 
 
United States Enrichment Corporation
 patents
51 out of 1,259 
 
Raychem Limited
 patents
61 out of 3 
 
Hoya Optics, Inc.
 patents
71 out of 2,529 
 
Hoya Corporation
 patents
81 out of 832,843 
Other
 patents
where one patent can have more than one assignee

Years Active: 1989-2021

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15 patents (USPTO):Explore Patents
1. 11126063 - Nonlinear optical crystal with corrected phase matching angle (2021-09-21),
2. 10031286 - Waveguide structures in anisotropic lasing and nonlinear optical media (2018-07-24),
3. 8189644 - High-efficiency Ho:YAG laser (2012-05-29),
4. 8102593 - Quasi non-critical phase matched and contra-phase matched structures (2012-01-24),
5. 7803451 - Optical composites between similar and between dissimilar materials (2010-09-28),
6. 6587488 - Control of parasitic laser oscillations in solid-state lasers by frustrating total internal reflections (2003-07-01),
7. 6160824 - Laser-pumped compound waveguide lasers and amplifiers (2000-12-12),
8. 6025060 - Method and apparatus for composite gemstones (2000-02-15),
9. 5936984 - Laser rods with undoped, flanged end-caps for end-pumped laser (1999-08-10),
10. 5852622 - Solid state lasers with composite crystal or glass components (1998-12-22),
11. 5846638 - Composite optical and electro-optical devices (1998-12-08),
12. 5563899 - Composite solid state lasers of improved efficiency and beam quality (1996-10-08),
13. 5441803 - Composites made from single crystal substances (1995-08-15),
14. 5053165 - Glass of improved thermal shock resistance for high average power solid (1991-10-01),
15. 4883523 - Avoidance of surface deterioration of glass during strengthening (1989-11-28),

Title: Innovations of Helmuth E Meissner

Introduction

Helmuth E Meissner is a notable inventor based in Pleasanton, CA, with a remarkable portfolio of 15 patents. His work primarily focuses on nonlinear optical technologies, which have significant applications in various fields, including telecommunications and laser technology.

Latest Patents

One of his latest patents is a nonlinear optical crystal with a corrected phase matching angle. This invention allows for harmonic conversion by utilizing a source laser beam that only needs to be within a specific wavelength range. The crystal is designed to be tilted to the calculated expected conversion angle, and the angle correction is achieved through a parallel kinematic motion device. This technology is applicable to both uniaxial and biaxial nonlinear optical crystals across a wide range of wavelengths.

Another significant patent involves waveguide structures in anisotropic lasing and nonlinear optical media. This invention presents a laser or nonlinear optical waveguide formed from a core anisotropic crystal, which is sandwiched by cladding of anisotropic crystals with slightly rotated optical axes. The unique refractive index differences between the core and cladding crystals enable effective mode confinement, which is crucial for achieving single-mode operation.

Career Highlights

Throughout his career, Helmuth has worked with several companies, including Onyx Optics, Inc. and Maxios Laser Corporation. His contributions to these organizations have been instrumental in advancing optical technologies.

Collaborations

Helmuth has collaborated with notable individuals in the field, including Huai-Chuan Lee and Oliver R Meissner. These partnerships have fostered innovation and development in nonlinear optical applications.

Conclusion

Helmuth E Meissner's contributions to nonlinear optical technologies through his patents and collaborations highlight his significant impact on the field. His innovative work continues to influence advancements in optical science and engineering.

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