Dieter Schardt

Title: **Innovative Contributions of Dieter Schardt in the Field of Particle Beam Technology**

Introduction

Dieter Schardt, an accomplished inventor based in Darmstadt, Germany, has made significant strides in the domain of particle beam technology. With a portfolio of six patents, his work primarily revolves around improving precision in high-energy ion beam applications, particularly in the realm of tumor therapy.

Latest Patents

Among his most notable inventions is the patent for **Quick regulation of the range of high-energy ion beams for precision irradiation of moving target volumes**. This invention outlines a device and process designed to adjust the range of an ion beam effectively for therapeutic purposes. By determining a reference position of the target volume to be irradiated, Schardt’s invention allows the ion beam to be calibrated so that the Bragg peak, which is critical for maximizing therapeutic impact, is directed accurately on the target area. If the position of the target volume shifts, the device compensates by adjusting the ion beam's trajectory, ensuring that the energy loss remains precise and effective.

Another significant patent is the **Particle beam generating device**, which encompasses at least one accelerator unit for creating a particle beam, along with an emission unit to direct these beams onto a workpiece. This innovative device can release multiple particle beams comprising hadronic particles that may vary in mass or charge, enhancing the versatility of applications in research and therapy.

Career Highlights

Dieter Schardt has honed his expertise through his associations with prominent organizations such as Gesellschaft für Schwerionenforschung mbH and GSI Helmholtzzentrum für Schwerionenforschung GmbH. His experience at these institutions has played a critical role in advancing research in the field of heavy ion therapy and particle physics.

Collaborations

Throughout his career, Schardt has collaborated with distinguished colleagues such as Thomas Haberer and Gerhard Kraft. Their collective efforts have significantly contributed to advancements in therapeutic techniques using ion beams, pushing the boundaries of what is achievable in cancer treatment and material science.

Conclusion

Dieter Schardt stands out as a significant figure in the innovation landscape of particle beam technology. His inventions not only showcase novel approaches to precision irradiation but also reflect a commitment to enhancing therapeutic capabilities in medical applications. With ongoing advancements in his field, Schardt's work continues to influence researchers and practitioners in cancer therapy and other related scientific fields.