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| classes:2010:fall:phys4303.001:home [2010/12/12 20:03] – x500_brow2178 | classes:2010:fall:phys4303.001:home [2010/12/20 18:24] (current) – reeves |
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| * {{:classes:2010:fall:phys4303.001:effective_wavelength_scaling_for_optical_antennas.pdf|}} | * {{:classes:2010:fall:phys4303.001:effective_wavelength_scaling_for_optical_antennas.pdf|}} |
| * Katherine Reeves : Shaping Optical Space with Metamaterials | * Katherine Reeves : Shaping Optical Space with Metamaterials |
| * [[http://physics.aps.org/viewpoint-for/10.1103/PhysRevLett.102.023901|"Giving light yet another twist"]] | * {{:classes:2010:fall:phys4303.001:key_-_physreve.74.036621.pdf|Full Wave simulations in E-M cloaking}} |
| * Eric Thorstad: Self-Similar Modes of Coherent Diffusion | * Eric Thorstad: Self-Similar Modes of Coherent Diffusion |
| * [[http://prl.aps.org/pdf/PRL/v105/i18/e183602|Self-Similar Modes of Coherent Diffusion]] | * [[http://prl.aps.org/pdf/PRL/v105/i18/e183602|Self-Similar Modes of Coherent Diffusion]] |
| * Bob Peterson: Optical signal processing | * Bob Peterson: Optical signal processing |
| * [[http://focus.aep.cornell.edu/Papers/Foster_compression.pdf|Ultrafast waveform compression using a time-domain telescope]] | * [[http://focus.aep.cornell.edu/Papers/Foster_compression.pdf|Ultrafast waveform compression using a time-domain telescope]] |
| | * {{:classes:2010:fall:phys4303.001:rwp.ppt|Presentation}} |
| * Martin Schroeder: Echolocation in Air | * Martin Schroeder: Echolocation in Air |
| * {{:classes:2010:fall:phys4303.001:biosonar.pdf|Echolocation in air: biological systems, technical challenges, and transducer design}} | * {{:classes:2010:fall:phys4303.001:biosonar.pdf|Echolocation in air: biological systems, technical challenges, and transducer design}} |
| * [[http://www.nature.com/nmat/journal/v9/n5/abs/nmat2747.html|A single-layer wide-angle negative-index metamaterial at visible frequencies]] | * [[http://www.nature.com/nmat/journal/v9/n5/abs/nmat2747.html|A single-layer wide-angle negative-index metamaterial at visible frequencies]] |
| * {{:classes:2010:fall:phys4303.001:a_single-layer_wide-angle_negative-index_metamaterial_at_visible_frequencies.pdf|}} | * {{:classes:2010:fall:phys4303.001:a_single-layer_wide-angle_negative-index_metamaterial_at_visible_frequencies.pdf|}} |
| * Ben Copenhaver: Production and characteristics of extremely loud brass instrument tones | |
| * [[http://dx.doi.org.floyd.lib.umn.edu/10.1121/1.3089733|Motion of the lips of brass players during extremely loud playing]] | |
| * Primary focus: [[http://dx.doi.org.floyd.lib.umn.edu/10.1121/1.1628682|Schlieren imaging of shock waves from a trumpet]] | |
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| * Alicia Hinkle: Hollow optical fibers used for carbon dioxide laser transmission | |
| * {{:classes:2010:fall:phys4303.001:nature_omniguide.pdf|}} | |
| * {{:classes:2010:fall:phys4303.001:science_coaxialwaveguide.pdf|}} | |
| * [[http://www.omni-guide.com/beampath-technology-papers-and-publications.htm#Peer-Reviewed Technical Publications]] | |
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| * Di Lin: Talbot effect in non-collimated propagation | * Di Lin: Talbot effect in non-collimated propagation |
| * Analysis of wavefront propagation using the Talbot effect | * Analysis of wavefront propagation using the Talbot effect |
| * [[http://www.opticsinfobase.org.floyd.lib.umn.edu/ao/abstract.cfm?uri=ao-49-28-5351|Applied Optics]] | * {{:classes:2010:fall:phys4303.001:talbot_effect_propagation.pdf|Talbot Effect pdf}} |
| * You will need to sign in on your x500 to access the PDF | |
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| * Sean Vig: Nonlinear properties of silicon waveguides | |
| * [[http://emerald.ucsd.edu/Docs/Ikeda_OE16_2008.pdf|Thermal and Kerr nonlinear properties of plasma-deposited silicon nitride/ silicon dioxide waveguides]] | |
| * [[http://www.optics.rochester.edu/workgroups/agrawal/publications/papers/paper_2007_11.pdf|Nonlinear optical phenomena in silicon waveguides: Modeling and applications]] | |
| * Bob Peterson: Optical signal processing | |
| * [[http://focus.aep.cornell.edu/Papers/Foster_compression.pdf|Ultrafast waveform compression using a time-domain telescope]] | |
| * Martin Schroeder: Echolocation in Air | |
| * {{:classes:2010:fall:phys4303.001:biosonar.pdf|Echolocation in air: biological systems, technical challenges, and transducer design}} | |
| * [[http://web.ebscohost.com.floyd.lib.umn.edu/ehost/pdfviewer/pdfviewer?vid=2&hid=119&sid=70ef5638-e944-427e-81f2-38ce4428ba59%40sessionmgr112|Echolocation in air]] | |
| * Peter Lofgren: Wireless Communications (perhaps interference/fading mitigation or multiple antenna systems) | |
| * {{:classes:2010:fall:phys4303.001:mimo_double_scattering.pdf|MIMO Diversity in the Presence of Double Scattering}} | |
| *Nikolay Kovalev: Optical Gyroscopes (Sources of Noise and Solutions) | *Nikolay Kovalev: Optical Gyroscopes (Sources of Noise and Solutions) |
| *[[http://iopscience.iop.org/0957-0233/18/10/S07/pdf/mst7_10_s07.pdf|Sensitivity and stability of an air-core | *[[http://iopscience.iop.org/0957-0233/18/10/S07/pdf/mst7_10_s07.pdf|Sensitivity and stability of an air-core |
| fibre-optic gyroscope]] | fibre-optic gyroscope (main paper]] |
| *[[http://iopscience.iop.org/1009-1963/16/3/029/pdf/1009-1963_16_3_029.pdf|Phenomena of optic-bound effect on fibre optic gyro]] | *[[http://iopscience.iop.org/1009-1963/16/3/029/pdf/1009-1963_16_3_029.pdf|Phenomena of optic-bound effect on fibre optic gyro]] |
| | * Sean Vig: Nonlinear properties of silicon waveguides |
| | * {{:classes:2010:fall:phys4303.001:nphoton.2010.185.pdf|Nonlinear silicon photonics}} |
| *Karl Ludeman: Optical absorption in photovoltaic cells | *Karl Ludeman: Optical absorption in photovoltaic cells |
| *[[http://www.stanford.edu/~mukul/publications/OpEx2008.pdf|Broadband optical absorption enhancement through coherent light trapping in thin-film photovoltaic cells]] | *[[http://www.stanford.edu/~mukul/publications/OpEx2008.pdf|Broadband optical absorption enhancement through coherent light trapping in thin-film photovoltaic cells]] |
| * Brian Glass: Nano-cavity lasers using plasmons | * Brian Glass: Nano-cavity lasers using plasmons |
| *{{:classes:2010:fall:phys4303.001:plasmon_lasers.pdf|Plasmon Lasers}} | *{{:classes:2010:fall:phys4303.001:plasmon_lasers.pdf|Plasmon Lasers}} |
| | * Peter Lofgren: Wireless Communications (Multiple Antenna Systems and Interference of Electromagnetic Waves) |
| | * {{:classes:2010:fall:phys4303.001:mimo_double_scattering.pdf|MIMO Diversity in the Presence of Double Scattering}} (newer, but harder to read) |
| | * {{:classes:2010:fall:phys4303.001:outdoor_mimowireless_channels.pdf|Outdoor Wireless Channels: Models and Performance Prediction}} (Model which later paper analyzes) |
| | * {{:classes:2010:fall:phys4303.001:measurement_of_keyhole_effect_in_mimo.pdf|Measurement of Keyhole Effect in an MIMO Channel}} (Short Experimental Paper) |
| | * {{:classes:2010:fall:phys4303.001:multiple_antennas_and_electromagnetic_interference_older_office.ppt|Presentation}} |
| | * Alicia Hinkle: Hollow optical fibers used for carbon dioxide laser transmission |
| | * {{:classes:2010:fall:phys4303.001:science1998_omnidirectionalmirror.pdf|}} |
| | * {{:classes:2010:fall:phys4303.001:nature_omniguide.pdf|}} |
| | * {{:classes:2010:fall:phys4303.001:science_coaxialwaveguide.pdf|}} (for further reading only) |
| | * Ben Copenhaver: Production and characteristics of extremely loud brass instrument tones |
| | * [[http://dx.doi.org.floyd.lib.umn.edu/10.1121/1.3089733|Motion of the lips of brass players during extremely loud playing]] |
| | * Primary focus: [[http://dx.doi.org.floyd.lib.umn.edu/10.1121/1.1628682|Schlieren imaging of shock waves from a trumpet]] |
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