Physics Department Faculty:
Jene A. Golovchenko
Rumsford Professor of Physics and Gordon McKay Professor of Applied PhysicsPhD 1972, Rensselaer Polytechnic Institut
Jene Golovchenko's research focuses on revealing and understanding the basic physics involved when various forms of radiation interact with atomic and condensed matter systems. He performs experiments where highly controlled electron, positron, atom, x-ray, ion and laser beams are used to reveal new phenomena connected with the radiation-matters system. Such experiments lead to the development of new probes to study matter and new techniques to modify and transform it into new forms. More recently Professor Golovchenko has applied these and other methods to the biophysics of polymers like DNA. Students in Professor Golovchenko's group get a broad exposure to the most advanced experimental tools and methods as well as the opportunity to express their experimental and theoretical creativity in problems of importance in pure and applied science. Specific areas of research pursued include Bose condensation by laser cooling, de Broglie atom wave optics of ultra cold atoms, annihilation in flight of MeV positrons as a probe of atomic scale magnetic structure, electronic sequencing of DNA in atomic scale solid state nanopores, X-ray optics in curved space, atomic scale properties of semiconductor surfaces in ultra high vacuum environments using tunneling microscopy, ion channeling and molecular beam epitaxy.
Jene Golovchenko has had a broad research career, working in academia, at Harvard and Aarhus University in Denmark, in industry, at Bell Labs, in national laboratories at Brookhaven and Livermore and at CERN in Geneva, Switzerland. He is also a member of the Rowland Institute for Science, an interdisciplinary nonprofit basic research institute in Cambridge. These affiliations have helped his students obtain broad perspectives on research and opportunities for furthering their careers when they graduate from Harvard.
- T. Ristroph , A. Goodsell, L. Hau, and J.A.Golovchenko,"Single neutral atom detection and quantized conductance near a charged nanotube", Physical Review Letters: 94, 066102 (2005).
- D. M. Stein, C. J. McMullan, J. Li, and J. A. Golovchenko, "A feedback-controlled ion beam sculpting apparatus" Review of Scientific Instruments, 75: 900-905, (2004).
- Peng, H. B. and J. A. Golovchenko, "Coulomb Blockade in Suspended SiN4-Coated Single-walled Carbon Nanotubes", Applied Physics Letters, 84: 5428-5430 (2004).
- P. Chen, T. Mitsui, D. B. Farmer, J. A. Golovchenko, R. G. Gordon, and D. Branton, " Atomic layer deposition to fine-tune the surface properties and diameters of fabricated nanopores", Nano Letters, 4: 1333-1337 (2004).
- H. B. Peng, T. G. Ristroph, G. M. Schurmann, G. M. King, J. Yoon, V. Narayanamurti, and J.A.Golovchenko, "Patterned Growth of Single-Walled Carbon Nanotube Arrays from a Vapor-Deposited Fe Catalyst", Applied Physics Letters, 83: 4238 (2003).
- J. Li, M. Gershow, D. Stein, E. Brandin, and J. A. Golovchenko, "DNA molecules and configurations in a solid-state nanopore microscope", Nature Materials, 2: 611-615 (2003).
- D. M. Stein, J. Li, and J. A. Golovchenko, "Ion Beam Sculpting Timescales", Physical Review Letters, 89:276106-1 (2002).
- C. Liu and J. A. Golovchenko, "Surface trapped x-rays: whispering-gallery modes at = 0.7 AA". Phys. Rev. Lett. 79(5): 788 (1997).
- R. Haakenaasen, L. V. Hau, J. A. Golovchenko, et. al., "Quantum channeling effects for 1 MeV positrons". Phys. Rev. Lett. 75(8): 1650 (1995).
- L. V. Hau, J. A. Golovchenko, and M. M. Burns, "Supersymmetry and the binding of a magnetic atom to a filamentary current". Phys. Rev. Lett. 74: 3138 (1995).