Exploring Papers on Buckminsterfullerene Entanglement: A Historical and Scientific Overview

Buckminsterfullerene, also known as C60, is a molecule that has sparked considerable interest due to its unique structure and properties. Originally named the "soccer ball molecule" due to its geodesic dome-like structure, C60 has been a focal point for numerous scientific investigations. One of the key areas of research has been the entanglement of these molecules and their placement in the broader context of scientific history. This article aims to guide you through the papers available on C60 entanglement, providing a comprehensive overview of the research and historical context.

Understanding the Structure of C60

Before delving into the concept of entanglement, it's essential to understand the structure of Buckminsterfullerene. C60 is composed of 60 carbon atoms arranged in a spherical shape, resembling a soccer ball or a geodesic dome. This unique structure has led to a plethora of scientific studies, ranging from chemical synthesis to quantum mechanics.

Research by Leo Paquette's Group at Ohio State University

Leo Paquette's group at Ohio State University was one of the pioneering research teams to study C60. One of their students, Morrie Osborne, was involved in the initial research efforts. To find the relevant papers, you can start by using the names of the researchers and the title 'Buckminsterfullerene' as keywords. This approach can help you develop a 'tree' of information that leads to the specific papers you need.

Key Papers on C60 Entanglement

A significant paper that discusses C60 entanglement is:

Arndt et al., 1999

Arndt et al. (1999) in Nature published Wave-particle duality of C60 molecules. This article provides a detailed analysis of the wave-particle duality of C60 molecules, which is closely related to entanglement studies.

Nairz et al., 2001

Nairz et al. (2001) published Diffraction of complex molecules by structures made of light in a scientific journal. This paper is another important reference for understanding the entanglement of C60 molecules.

Zeilinger, 2003

A recent review paper by Zeilinger (2003) titled Recent advances in teleportation of entanglement and in fullerene interference provides an in-depth look at the latest developments in the field. The paper is part of the conference proceedings in Coherence and Quantum Optics VIII and gives comprehensive insights into the advancements in C60 entanglement research.

Conclusion

The study of C60 entanglement is a fascinating area of research with significant contributions from scientists worldwide. By leveraging the resources available, such as the names of researchers and key papers, you can gain a deeper understanding of this complex scientific topic. Whether you are a researcher, scientist, or simply interested in the field, these papers provide a solid foundation for further exploration.

References

Aarns, M., Nairz, O., Vos-Andreae, J., Keller, C., van der Zouw, G., Zeilinger, A. (1999). Wave-particle duality of C60 molecules. Nature, 401(6754), 680-682.

Zeilinger, A. (2003). Recent advances in teleportation of entanglement and in fullerene interference. In N.P. Bigelow, J.H. Eberly, C.R. Stroud, I.A. Walmsley (Eds.), Coherence and Quantum Optics VIII (Springer Boston MA).

Nairz, O., Arndt, M., Vos-Andreae, J., Zeilinger, A. (2001). Diffraction of complex molecules by structures made of light. [Further details needed].