Jürgen Wulf

Title: Jürgen Wulf: Innovator in Light Scanning Technology

Introduction

Jürgen Wulf is a notable inventor based in Ueberlingen, Germany. He has made significant contributions to the field of light scanning technology, holding two patents that enhance the efficiency and precision of light detection systems. His work is particularly relevant in applications requiring high spatial resolution in fluorescence examinations.

Latest Patents

Wulf's latest patents include a light sensing device and a light scanning device. The light sensing device is designed for exciting and detecting secondary light emissions, particularly fluorescent light, from a sample. It features a light generating device that produces a single light beam, a deflection unit for scanning subareas of the sample, and a detection unit for capturing the secondary light. This innovation reduces scanning times while maintaining high resolution by dividing the single light beam into multiple beams for simultaneous scanning.

The light scanning device also focuses on exciting and detecting secondary light from samples. It includes a light emission device, focusing optics, and a sample holding device that allows for precise positioning of the sample relative to the exciting light. This design overcomes the limitations of conventional devices by eliminating the need for deflection units, thus ensuring accurate scanning of the sample.

Career Highlights

Jürgen Wulf is associated with Bodenseewerk Perkin-Elmer GmbH, where he continues to develop innovative technologies in light scanning. His work has significantly advanced the capabilities of fluorescence examination, making it more efficient and reliable.

Collaborations

Wulf has collaborated with notable colleagues, including Michael Steinwand and Henry Klemm, contributing to the development of advanced light scanning technologies.

Conclusion

Jürgen Wulf's contributions to light scanning technology exemplify the impact of innovation in scientific research. His patents not only enhance the efficiency of fluorescence examinations but also pave the way for future advancements in the field.