The most up-to-date record of my publications can be found on the SAO/NASA Astrophysics Data System (ADS)
My PhD Thesis is available from the University of Toronto TSpace Repository
Gandilo, N. N., et al., 2016. Submillimeter Polarization Spectrum in the Vela C Molecular Cloud. (Accepted by ApJ). arXiv:1512.06745.
Bryan, S. A., et al., 2016. A Cryogenic Rotation Stage With a Large Clear Aperture for the Half-Wave Plates in the SPIDER Instrument. Rev. Sci. Instrum. 87, 014501. arXiv:1510.01771.
Fissel, L. M., et al., 2016. Balloon-Borne Submillimeter Polarimetry of the Vela C Molecular Cloud: Systematic Dependence of Polarization Fraction on Column Density and Local Polarization-Angle Dispersion. (Accepted by ApJ). arXiv:1509.05298.
Guðmundsson, J. E. et al., 2015. The Thermal Design, Characterization, and Performance of the SPIDER Long-Duration Balloon Cryostat. Cryogenics 72,65. arXiv:1506.06953.
Poidevin, F. et al., 2014. Comparison of Prestellar Core Elongations and Large-Scale Molecular Cloud Structures in the Lupus I Region. ApJ 791,43. arXiv:1405.0331.
Matthews, T. G. et al., 2013. Lupus I Observations from the 2010 Flight of the Balloon-borne Large Aperture Submillimeter Telescope for Polarimetry. ApJ 784,116. arXiv:1307.5853.
Fraisse, A. A. et al., 2011. SPIDER: Probing the Early Universe with a Suborbital Polarimeter. JCAP04(2013)047. arXiv:1106.3087.
Moon, D-S., Harrison, F. A., Cenko, S. B., and Shariff, J. A., 2011. Large Highly Ionized Nebulae Around Ultra-Luminous X-Ray Sources. ApJL 731,L32. arXiv:1103.2773.
O'Dea, D. T. et al., 2011. SPIDER Optimization II: Optical, Magnetic, and Foreground Effects. ApJ 738,63. arXiv:1102.0559.
Shariff, J. A. et al., 2014. Pointing control for the SPIDER balloon-borne telescope. Proceedings of the SPIE. Vol. 9145. arXiv:1407.1880.
Soler, J. D. et al., 2014. Design and construction of a carbon fiber gondola for the SPIDER balloon-borne telescope. Proceedings of the SPIE. Vol. 9145. arXiv:1407.1881.
Benton, S. J. et al., 2014. BLASTbus electronics: general-purpose readout and control for balloon-borne experiments. Proceedings of the SPIE. Vol. 9145. arXiv:1407.1882.
Gandilo, N. N. et al., 2014. Attitude determination for balloon-borne experiments. Proceedings of the SPIE. Vol. 9145. arXiv:1407.1883.
Rahlin, A. S. et al., 2014. Pre-flight integration and characterization of the SPIDER balloon-borne telescope. Proceedings of the SPIE. Vol. 9153. arXiv:1407.2906.
Galitzki, N. et al., 2014. The Balloon-borne Large-Aperture Submillimeter Telescope for Polarimetry-BLASTPol: Performance and Results from the 2012 Antarctic Flight. Proceedings of the SPIE. Vol. 9145. arXiv:1407.3815.
Soler, J. D. et al., 2014. Thermal design and performance of the balloon-borne large aperture submillimeter telescope for polarimetry BLASTPol. Proceedings of the SPIE. Vol. 9145. arXiv:1407.2670.
Pascale, E. et al., 2012. The Balloon-borne Large-Aperture Submillimeter Telescope for Polarimetry-BLASTPol: Performance and Results from the 2010 Antarctic Flight. Proceedings of the SPIE. Vol. 8444. ADS Abstract.
Bryan, S. A. et al., 2010. Modeling and Characterization of the SPIDER Half-Wave Plate. Proceedings of the SPIE. Vol. 7741. arXiv:1006.3874.
Filippini, J. P. et al., 2010. SPIDER: A Balloon-Borne CMB Polarimeter for Large Angular Scales. Proceedings of the SPIE. Vol. 7741. arXiv:1106.2158.
Fissel, L. M. et al., 2010. The Balloon-Borne Large-Aperture Submillimeter Telescope for Polarimetry: BLAST-Pol. Proceedings of the SPIE. Vol. 7741. arXiv:1007.1390.
Guðmundsson, J. E. et al., 2010. Thermal Architecture for the SPIDER Flight Cryostat. Proceedings of the SPIE. Vol. 7741. arXiv:1106.2507.
Runyan, M. C. et al., 2010. Design and Performance of the SPIDER Instrument. Proceedings of the SPIE. Vol. 7741. arXiv:1106.2173.