Aaron Schweinsberg's Publications

The following papers are viewable in PDF format.
(Some files may be viewed more easily if downloaded.)

  1. Phase locking of multiple optical fiber channels for a slow-light-enabled laser radar system
    Joe Vornehm Jr, Aaron Schweinsberg, Zhimin Shi, Daniel J. Gauthier, and Robert W. Boyd
    Optics Express vol. 21 , p. 13094  (2013). View PDF | View Online
  2. A Slow-Light Laser Radar (SLIDAR)
    Zhimin Shi, Aaron Schweinsberg, Joe Vornehm Jr, and Robert W. Boyd
    Optics and Photonics News 23 (12) , p. 51  (2012). View PDF | View Online
  3. Theoretical model for superluminal and slow light in erbium-doped optical fibers: enhancement of the frequency response by pump modulation
    D. J. Jackson, Aaron Schweinsberg, N. N. Lepeshkin, Matthew S. Bigelow, and Robert W. Boyd
    Applied Physics B: Lasers and Optics, 107(3) , pp. 717 -732  (2012). View PDF | View Online
  4. A slow-light laser radar system with two-dimensional scanning
    Aaron Schweinsberg, Zhimin Shi, Joe Vornehm Jr, and Robert W. Boyd
    Opt. Lett., Vol. 37, No. 3 , pp. 329 -331  (2012). View PDF | View Online
  5. Loss of spatial coherence and limiting of focal plane intensity by small-scale laser-beam filamentation
    Aaron Schweinsberg, Jerry Kuper, and Robert W. Boyd
    Phys. Rev. A 84 , p. 053837  (2011). View PDF | View Online
  6. Demonstration of a slow-light laser radar
    Aaron Schweinsberg, Zhimin Shi, Joe Vornehm Jr, and Robert W. Boyd
    Optics Express Vol. 19 Issue 17 , pp. 15760 -15769  (2011). View PDF | View Online
  7. Low distortion, continuously tunable, positive and negative time delays by slow and fast light using stimulated Brillouin scattering
    Zhimin Shi, Aaron Schweinsberg, Joe Vornehm Jr, M. Alejandrina Martínez Gámez, and Robert W. Boyd
    Physics Letters A 374 , pp. 4071 -4074  (2010). View PDF | View Online
  8. Reducing pulse distortion in fast-light pulse propagation through an erbium-doped fiber amplifier using a mutually incoherent background field
    Heedeuk Shin, Aaron Schweinsberg, and Robert W. Boyd
    Optics Communications 282 , pp. 2085 -2087  (2009). View PDF
  9. Wide-Bandwidth, Tunable, Multiple-Pulse-Width Optical Delays Using Slow Light in Cesium Vapor
    Ryan M. Camacho, Michael V. Pack, John C. Howell, Aaron Schweinsberg, and Robert W. Boyd
    Phy. Rev. Lett. 98 , p. 153601  (2007). View PDF
  10. Reducing pulse distortion in fast-light pulse propagation through an erbium-doped fiber amplifier
    Heedeuk Shin, Aaron Schweinsberg, George M. Gehring, Katie Schwertz, Hye Jeong Chang, Robert W. Boyd, Q-Han Park, and Daniel J. Gauthier
    Optics Letters (2007). View PDF
  11. Observation of superluminal and slow light propagation in erbium-doped optical fiber
    Aaron Schweinsberg, N. N. Lepeshkin, Matthew S. Bigelow, Robert W. Boyd, and D. J. Jackson
    Europhys. Lett. 73 (2) , pp. 218 -224  (2006). View PDF
  12. An environmental sensor based on an integrated optical whispering gallery mode disk resonator
    Aaron Schweinsberg, Sandrine Hocde, N. N. Lepeshkin, Robert W. Boyd, Christopher Chase, and Julie E. Fajardo
    Sens. Actuators B: Chem. in press, (2006). View PDF
  13. Observation of Backwards Pulse Propagation Through a Medium with a Negative Group Velocity
    George M. Gehring, Aaron Schweinsberg, Christopher Barsi, Natalie Kostinski, and Robert W. Boyd
    Science, Vol. 312, , p. 895  (2006).
  14. Coupled-resonator-induced transparency in a fiber system
    David D. Smith, N. N. Lepeshkin, Aaron Schweinsberg, George M. Gehring, Robert W. Boyd, Q-Han Park, Hye Jeong Chang, and D. J. Jackson
    Optics Communications 264 , pp. 163 -168  (2006). View PDF
  15. Tunable All-Optical Delays via Brillouin Slow Light in an Optical Fiber
    Yoshitomo Okawachi, Matthew S. Bigelow, Jay E. Sharping, Zhaoming Zhu, Aaron Schweinsberg, Daniel J. Gauthier, Robert W. Boyd, and Alexander L. Gaeta
    Phys. Rev. Lett. 94 , p. 153902  (2005).
  16. Enhanced Nonlinear Optical Response of One-Dimensional Metal-Dielectric Photonic Crystals
    N. N. Lepeshkin, Aaron Schweinsberg, Giovanni Piredda, Ryan S. Bennink, and Robert W. Boyd
    Phys. Rev. Lett. 93 , p. 123902  (2004). View PDF
  17. Optical Transmission Characterisitics of Fiber Ring Resonators
    John E. Heebner, Vincent Wong, Aaron Schweinsberg, Robert W. Boyd, and D. J. Jackson
    IEEE J. of Quant. Elec. , p. 726  (2004). View PDF
  18. Enhanced linear and nonlinear optical phase response of AlGaAs microring resonators
    John E. Heebner, N. N. Lepeshkin, Aaron Schweinsberg, G W. Wicks, Robert W. Boyd, Rohit Grover, and John E. Heebner
    Opt. Lett. 29 , p. 769  (2004). View PDF
  19. Nanofabrication of optical structures and devices for photonics and biophotonics
    Robert W. Boyd, John E. Heebner, N. N. Lepeshkin, Q-Han Park, Aaron Schweinsberg, G W. Wicks, A. S. Baca, Julie E. Fajardo, R. R. Hancock, M. A. Lewis, R. M. Boysel, M. Quesada, R. Welty, A. R. Bleier, J. Treichler, and R. E. Slusher
    Journal of Modern Optics, Vol. 50 , p. 2543  (2003). View PDF