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For the Inventor, By the Inventor

Ridgefield, CT, United States of America

Jeffrey S Schweitzer

USPTO Granted Patents = 12

Average Co-Inventor Count = 2.7

ph-index = 7

Forward Citations = 262(Granted Patents)


Company Filing History:

goldMedal10 out of 10,178 
 
Schlumberger Technology Corporation
 patents
silverMedal1 out of 1,641 
 
Hitachi Chemical Company, Ltd.
 patents
bronzeMedal1 out of 8,370 
 
Massachusetts Institute of Technology
 patents

Years Active: 1978-1999

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12 patents (USPTO):Explore Patents
1. 5961714 - Method of growing lutetium aluminum perovskite crystals and apparatus (1999-10-05),
2. 5896429 - Method for measurement of blast furnace liner thickness (1999-04-20),
3. 5660627 - Method of growing lutetium oxyorthosilicate crystals (1997-08-26),
4. 5543617 - Method of measuring flow velocities using tracer techniques (1996-08-06),
5. 5264154 - Single crystal scintillator (1993-11-23),
6. 5122662 - Circular induction accelerator for borehole logging (1992-06-16),
7. 4914944 - Situ determination of hydrocarbon characteristics including oil api (1990-04-10),
8. 4883956 - Methods and apparatus for gamma-ray spectroscopy and like measurements (1989-11-28),
9. 4810876 - Logging apparatus and method for determining absolute elemental (1989-03-07),
10. 4404467 - Salinity and lithology determination from the sodium and chlorine (1983-09-13),
11. 4208580 - Lithology determination from the calcium and magnesium activation lines (1980-06-17),
12. 4085798 - Method for investigating the front profile during flooding of formations (1978-04-25),

Title: The Innovative Contributions of Jeffrey S. Schweitzer

Introduction

Jeffrey S. Schweitzer is a notable inventor based in Ridgefield, CT (US), recognized for his significant contributions to the field of materials science and engineering. With a total of 12 patents to his name, Schweitzer has developed innovative methods and apparatuses that have practical applications in various industries.

Latest Patents

One of his latest patents is a method for growing lutetium aluminum perovskite crystals. This method involves heat aging the crystal melt and maintaining a flat interface between the crystal and the melt during the growth process. The Czochralski growth method allows for controllable rotation rates and crystal diameters, resulting in crystals that exhibit less variability in scintillation behavior. These crystals are particularly suitable for spectroscopic uses and find applications in borehole logging tools. Another significant patent is a method for measuring blast furnace liner thickness. This invention provides a way to inspect walls to evaluate their remaining thickness and the extent of material infiltration. By directing photons of radiation and/or neutrons into the wall, the method analyzes the emitted radiation through various interactions, making it especially useful for inspecting carbon hearth-wall liners in iron-smelting blast furnaces.

Career Highlights

Throughout his career, Schweitzer has worked with prominent companies such as Schlumberger Technology Corporation and Hitachi Chemical Company, Ltd. His experience in these organizations has contributed to his expertise in developing innovative technologies and solutions.

Collaborations

Schweitzer has collaborated with notable individuals in his field, including Charles L. Melcher and Ralph M. Tapphorn. These collaborations have likely enhanced his research and development efforts, leading to the successful creation of his patented inventions.

Conclusion

Jeffrey S. Schweitzer's innovative work in materials science has led to significant advancements in crystal growth methods and inspection technologies. His contributions continue to impact various industries, showcasing the importance of innovation in solving complex engineering challenges.

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