X. Tang

Pelc, J. S., Kuo, P. S., Slattery, O. ., Ma, L. J., Tang, X. ., & Fejer, M. M. (2012). Dual-channel, single-photon upconversion detector at 1.3 mu m. Optics Express, 20, 19075–19087. http://doi.org/10.1364/oe.20.019075

Mink, A. ., Bienfang, J. C., Carpenter, R. ., Ma, L. J., Hershman, B. ., Restelli, A. ., & Tang, X. . (2009). Programmable instrumentation and gigahertz signaling for single-photon quantum communication systems. New Journal of Physics, 11. http://doi.org/10.1088/1367-2630/11/4/045016

Kuo, P. S., Pelc, J. S., Slattery, O. ., Kim, Y. S., & Tang, X. . (2013). Entangled photon generation in a phase-modulated, quasi-phasematched crystal. In (Vol. 8875). http://doi.org/10.1117/12.2024286

Kuo, P. S., Slattery, O. ., Kim, Y. S., Pelc, J. S., Fejer, M. M., & Tang, X. . (2013). Spectral response of an upconversion detector and spectrometer. Optics Express, 21, 22523–22531. http://doi.org/10.1364/oe.21.022523

Kuo, P. S., Pelc, J. S., Slattery, O. ., Fejer, M. M., & Tang, X. . (2012). Dual-channel, single-photon upconversion detector near 1300 nm. In (Vol. 8518). http://doi.org/10.1117/12.946250

Kuo, P. S., Pelc, J. S., Slattery, O. ., Kim, Y. S., Fejer, M. M., & Tang, X. . (2013). Reducing noise in single-photon-level frequency conversion. Optics Letters, 38, 1310–1312. http://doi.org/10.1364/ol.38.001310

Kuo, P. S., Pelc, J. S., Slattery, O. ., Kim, Y. S., Fejer, M. M., & Tang, X. . (2013). Efficient, low-noise, single-photon frequency conversion. In .