Calorimetric observation of single He2* excimers in a 100 mK He bath F. W. Carter, S. A. Hertel, M. J. Rooks, P. V. E. McClintock, D. N. McKinsey, D. E. Prober, J. Low Temp. Phys.  2016 DOI 10.1007/s10909-016-1666-x Open Access
"Electron-phonon cooling in large monolayer graphene devices," C.B. McKitterick, M.J. Rooks, and D.E. Prober, Phys. Rev. B93, 075410 (2016).
"Aging of Ultra-Thin Niobium Films," D.F. Santavicca and D.E. Prober, IEEE Trans. Appl. Supercon. 25 220104 (2015).
"Ultrasensitive Graphene Far-Infrared Power Detectors," C.B. McKitterick, D.E. Prober, H. Vora, and X. Du, J. Phys. Condens. Matter 27 164203 (2015).
"Towards the in-situ detection of individual He2* excimers using a Ti TES in superfluid helium," F.W. Carter, S.A. Hertel, M.J. Rooks, D.N. McKinsey, and D.E. Prober, IEEE Trans. Appl. Supercon. 25 2100707 (2015).
"Normal Metal Hot-Electron Nanobolometer with Johnson Noise Thermometry Readout," B.S. Karasik, C.B. McKitterick, T.J. Reck, and D.E. Prober, IEEE Trans. THz Sci. Technol. 5 16 (2015).
"Monolayer graphene bolometer as a sensitive far-IR detector," B.S. Karasik, C.B. McKitterick, and D.E. Prober, SPIE Proceedings 9153 (2014).
"Prospective performance of graphene HEB for ultrasensitive detection of sub-mm radiation," B.S. Karasik, C.B. McKitterick, and D.E. Prober, J. Low Temp. Physics 176249 (2014). [PDF]
"Graphene-based Bolometers," X. Du, D.E. Prober, H. Vora, and C.B. McKitterick,Graphene and 2D Materials 1 1 (2014).