Lambertus Hesselink
Affiliations: | Electrical Engineering | Stanford University, Palo Alto, CA |
Area:
nano-photonics, ultra high density optical data storage, nonlinear optics, optical super-resolution, materials science, three-dimensional image processing and graphics, and Internet technologies.Website:
https://profiles.stanford.edu/lambertus-hesselinkGoogle:
"Lambertus Hesselink"Bio:
http://www-leland.stanford.edu/group/holography/
Hesselink, Lambertus, An experimental investigation of propagation of weak shock waves in a random medium. Dissertation (Ph.D.), California Institute of Technology (1977).
Mean distance: 22.26
Cross-listing: E-Tree
Parents
Sign in to add mentor| Hans Wolfgang Liepmann | grad student | 1977 | Caltech (Fluid Dynamics and Combustion Tree) | |
| (An experimental investigation of propagation of weak shock waves in a random medium.) | ||||
| Bradford Sturtevant | grad student | 1977 | Caltech (E-Tree) | |
Children
Sign in to add trainee| Steven H. Collicott | grad student | 1990 | Stanford (Astronomy Tree) |
| Minami Yoda | grad student | 1992 | Stanford (E-Tree) |
| Rajesh K. Batra | grad student | 2000 | Stanford |
| Alice Y. Liu | grad student | 2000 | Stanford |
| Loukas Paraschis | grad student | 2000 | Stanford |
| Xiaolei Shi | grad student | 2003 | Stanford |
| Joseph A. Matteo | grad student | 2005 | Stanford |
| Jun Ren | grad student | 2005 | Stanford |
| Ji-Won Son | grad student | 2005 | Stanford |
| Liying Sun | grad student | 2005 | Stanford |
| Yuzuru Takashima | grad student | 2007 | Stanford |
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Publications
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| Neustock LT, Hansen PC, Russell ZE, et al. (2019) Inverse Design Tool for Ion Optical Devices using the Adjoint Variable Method. Scientific Reports. 9: 11031 |
| Ryan J, Zheng Y, Hansen P, et al. (2015) Fabrication and Operation of a Nano-Optical Conveyor Belt. Journal of Visualized Experiments : Jove |
| Scalo C, Lele SK, Hesselink L. (2015) Linear and nonlinear modelling of a theoretical travelling-wave thermoacoustic heat engine Journal of Fluid Mechanics. 766: 368-404 |
| Zheng Y, Ryan J, Hansen P, et al. (2014) Nano-optical conveyor belt, part II: Demonstration of handoff between near-field optical traps. Nano Letters. 14: 2971-6 |
| Cheng YT, Takashima Y, Yuen Y, et al. (2011) Ultra-high resolution resonant C-shaped aperture nano-tip. Optics Express. 19: 5077-85 |
| Leen JB, Hansen P, Cheng YT, et al. (2008) Improved focused ion beam fabrication of near-field apertures using a silicon nitride membrane. Optics Letters. 33: 2827-9 |
| McLeod RR, Daiber AJ, Honda T, et al. (2008) Three-dimensional optical disk data storage via the localized alteration of a format hologram. Applied Optics. 47: 2696-707 |
| Fore S, Yuen Y, Hesselink L, et al. (2007) Pulsed-interleaved excitation FRET measurements on single duplex DNA molecules inside C-shaped nanoapertures. Nano Letters. 7: 1749-56 |
| Sun L, Hesselink L. (2006) Low-loss subwavelength metal C-aperture waveguide. Optics Letters. 31: 3606-8 |
| Tang L, Miller DA, Okyay AK, et al. (2006) C-shaped nanoaperture-enhanced germanium photodetector. Optics Letters. 31: 1519-21 |