1. Incoherent saturation study of the selenium donor in AlSb, R. E. Peale, K. Muro, J. T. McWhirter and A. J. Sievers, Sol. State Comm. 60, 753 (1986).
2. Infrared spectral hole burning of sulfur-hydrogen deep donors in a Si:Ge crystal, S. P. Love, K. Muro, R. E. Peale and A. J. Sievers, Phys. Rev. B 36, 2950 (1987).
3. Zeeman splitting of double-donor spin-triplet levels in silicon, R. E. Peale, K. Muro, A. J. Sievers and F. S. Ham, Phys. Rev. B 37, 10829 (1988).
4. Infrared study of (H,Be)-, (D,Be)- , and (Li,Be)-acceptor complexes in silicon, R. E. Peale, K. Muro, and A. J. Sievers, Phys. Rev. B 41, 5881 (1990).
5. Magneto-optical properties of the DX center in Al0.35Ga0.65As:Te, R. E. Peale, Y. Mochizuki, H. -J. Sun, and G. D. Watkins, Semiconductor Science and Technology 6, B92 (1991).
6. Passivation of shallow impurities in Si by annealing in H2 at high temperature, I. A. Veloarisoa, M. Stavola, D. M. Kozuch, R. E. Peale, and G. D. Watkins, Appl. Phys. Lett. 59, 2121 (1991).
7. Optical detection of EPR and electron-nuclear double resonance for substitutional Mn(d5) in InP:Sn, H. J. Sun, R. E. Peale, and G. D. Watkins, Phys. Rev. B 45, 8310 (1992).
8. Absence of dichroism for the DX optical-bleaching transients in Al0.35Ga0.65As:Te, R. E. Peale, H. -J. Sun, and G. D. Watkins, Phys. Rev. B15, 3353-9 (1992).
9. Magnetic circular dichroism of the DX center in Al0.35Ga0.65As:Te, R. E. Peale, Y. Mochizuki, H. -J. Sun, and G. D. Watkins, Phys. Rev. B15, 5933-43(1992).
10. Spectroscopy and Laser Performance of Nd Doped Gadolinium Lithium Fluoride, X. X. Zhang, Z. B. Villaverde, M. Bass, B. H. T. Chai, H. Weidner, R. I. Ramotar, and R. E. Peale, J. Appl. Phys. 74, 790 (1993).
11. Interpretive crystal-field analysis: Application to Nd3+ in YVO4, and in GdVO4, F. G. Anderson, P. L. Summers, H. Weidner, and R. E. Peale, Phys. Rev. B 50, 14 802 (1994).
12. Spectroscopy and crystal-field analysis for Nd3+ in GdLiF4, F. G. Anderson, H. Weidner, P. L. Summers, and R. E. Peale, J. Luminescence 62, 77 (1994).
13. Effect of Gd3+ substitution for Y3+ in YLiF4, KLiYF5, and YVO4, F. G. Anderson, H. Weidner, P. L. Summers, R. E. Peale, X. X. Zhang, and B. H. T. Chai, J. Luminescence 60&61, 150 (1994).
14. Temperature and Concentration Dependances of Ho3+ to Yb3+ Energy Transfer in Yb3+, Ho3+ Codoped KYF4, X. X. Zhang, P. Hong, M. Bass, R. E. Peale, H. Weidner, and B. H. T. Chai, J. Luminescence 60&61, 878 (1994).
15. Spectroscopy of Nd3+ in KLiYF5 and KliGdF5, P. L. Summers, H. Weidner, R. E. Peale, and B. H. T. Chai, J. Appl. Phys. 75, 2184-2188 (1994).
16. Site Selective Spectroscopy of Ho3+:KYF4, R. E. Peale, H. Weidner, P. L. Summers, and B. H. T. Chai, J. Appl. Phys. 75, 502-505 (1994).
17. Site selective spectroscopy and crystal field analysis of Nd3+ in strontium fluorovanadate, R. E. Peale, P. L. Summers, H. Weidner, and C. A. Morrison, J. Appl. Phys. 77, 270 (1995).
18. Spectroscopic characteristics of Nd3+ doped strontium fluorovanadate and their relationship to laser performance, P. Hong, X. X. Zhang, R. E. Peale, H. Weidner, M. Bass, and B. H. T. Chai, J. Appl. Phys. 77, 294 (1995).
19. Zebra schlieren optics for remote leak detection, R. E. Peale and P. L. Summers, Applied Optics 35, 4518 (1996).
20. Time-resolved Fourier spectroscopy for activated optical materials, H. Weidner and R. E. Peale, Applied Optics 35, 2849 (1996).
21. Time-Resolved Fourier Spectroscopy for Phosphor Characterization, H. Weidner, C. J. Schwindt, and R. E. Peale, J. Soc. Information Display 4/ 3, 177-181 (1996).
22. Submillimeter p-Ge laser using a Voigt-configured permanent magnet, Kijun Park, R. E. Peale, H. Weidner, and J. J. Kim, IEEE J. Quantum Electronics 32, 1203-1210 (1996).
23. Photoluminescence studies of thermally impurity diffused porous silicon layers, K. B. Sundaram, S. A. Ali, R. E. Peale, and W. A. McClintic, Jr., J. Materials Science: Materials in Electronics 8, 163-169 (1997).
24. White light schlieren optics using bacteriorhodopsin as an adaptive image grid, R. E. Peale, A. B. Ruffin, and J. E. Donahue, Applied Optics 36, 4446 (1997).
25. Event-locked time-resolved Fourier Spectroscopy, H. Weidner and R. E. Peale, \ Applied spectroscopy 51, 1106 (1997).
26. Transient event-locked Fourier spectroscopy, H. Weidner and R. E. Peale, J. Lumin. 72-74, 1020 (1997).
27. Laser Action in Yb3+:YCOB (Yb3+:YCa4O(BO3)3), D. A. Hammons, J. M. Eichenholz, Q. Ye, B. H. T. Chai, L. Shah, R.E. Peale, M. Richardson, and H. Qiu, Optics Communications 156, 327-330 (1998).
28. Quality Analysis for Least-Squares Transformation of Unevenly Spaced Interferograms, H. Weidner and R. E. Peale, Applied spectroscopy 52, 587 (1998).
29. Evidence for self-mode-locking in p-Ge laser emission, A. V. Muravjov, R. C. Strijbos, C. J. Fredricksen, H. Weidner, W. Trimble, S. H. Withers, S. G. Pavlov, V. N. Shastin, and R. E. Peale, Appl. Phys. Lett. 73,3037 (1998).
30. Diode-pumped self-frequency doubling in a Nd3+ :YCa4O(BO3)3 laser, J. M. Eichenholz, D. A. Hammons, L. Shah, Q. Ye, R. E. Peale, M. Richardson, and B. H. T. Chai, Applied Physics Letters 74, 1954-1956 (1999)
31. Laser tunability in Yb3+: YCa4O(BO3)3 (Yb:YCOB), L. Shah, Q. Ye, J. M. Eichenholz, D. A. Hammons, M. Richardson, B. H. T. Chai, R. E. Peale, OPT COMMUN 167, 149 (1999).
32. Pulse separation control for mode-locked far-infrared p-Ge lasers, A. V. Muravjov, R. C. Strijbos, C. J. Fredricksen, S. H. Withers, W. Trimble, S. G. Pavlov, V. N. Shastin, and R. E. Peale, Appl. Phys. Lett. 74, 167-169 (1999).
33. Broad band p-Ge optical amplifier of terahertz radiation, A. V. Muravjov, S. H. Withers, S. G. Pavlov, V. N. Shastin, and R. E. Peale, J. Appl. Phys. 86, 3512 (1999).
34. Actively mode-locked p-Ge laser in Faraday configuration A.V. Muravjov, S. H. Withers, R. C. Strijbos, S. G. Pavlov, V. N. Shastin, and R. E. Peale, Appl. Phys. Lett. 75, 2882 (1999)
35. Single axial-mode selection in a far-infrared p-Ge laser, A.V. Muravjov, S. H. Withers, H. Weidner, R. C. Strijbos, S. G. Pavlov, V. N. Shastin, and R. E. Peale, Appl. Phys. Lett. 76, 1996 (2000).
36. Simultaneous cw dual-wavelength laser action and tunability performance of diode-pumped Yb3+: Sr5(VO4)3F, Bustamante ANP, Hammons DA, Peale RE, Chai BHT, Richardson M, Chin A, OPTICS COMMUNICATIONS 192 (3-6): 309-313 (2001).
37. Piezo controlled intracavity wavelength selector for the far-infrared p-Ge laser, E. W. Nelson, A. V. Muravjov, S. G. Pavlov, V. N. Shastin, and R. E. Peale, Infrared Physics and Technology 42 (2):107-110 2001.
38. High-resolution study of composite cavity effects for p-Ge lasers, E. W. Nelson, S. H. Withers, A. V. Muravjov, R. C. Strijbos, R. E. Peale, S. G. Pavlov, V. N. Shastin, and C. J. Fredricksen, IEEE Journal of Quantum Electronics 37, 1525-1530 (2001).
39. EXAFS study of rare-earth element coordination in calcite, E. J. Elzinga, R. J. Reeder, S. H. Withers, R. E. Peale, R. A. Mason, K. M. Beck, and W. P. Hess, Geochimica et Cosmochimica Acta 66, 2875-2885(2002).
40. Broad distribution of crystal field environments for Nd3+ in Calcite, S. H. Withers, R. E. Peale, A. F. Schulte, G. Braunstein, K. M Beck, W. P. Hess, and R. J. Reeder, Phys. Chem. Minerals 30, 440-448 (2003).
41. Far-infrared p-Ge laser with variable length cavity, A. V. Muravjov, E. W. Nelson, R. E. Peale, V. N. Shastin, and C. J. Fredricksen, Infrared Physics & Technology 44, 75-78 (2003).
42. High field p-Ge laser operation in permanent magnet assembly, C. J. Fredricksen, E. W. Nelson, A. V. Muravjov, and R. E. Peale, Infrared Physics and Technology 44, 79-84 (2003).
43. Dielectric selective mirror for intracavity wavelength selection in far-infrared p-Ge lasers, T. W. Du Bosq, R. E. Peale, E. W. Nelson, A. V. Muravjov, C. J. Fredricksen, N. Tache, and D. B. Tanner, J. Appl. Phys. 94, 5474 (2003).
44. Neutron Transmutation Doped Far-infrared p-Ge laser, E. W. Nelson, M. V. Dolguikh, A. V. Muravjov, E. S. Flitsiyan, T. W. Du Bosq, R. E. Peale, S. H. Kleckley, C. J. Fredricksen, W. G. Vernetson, J. Appl. Phys. 96, 1 (2004).
45. Wavelength selection for the far-infrared p-Ge laser using etched silicon lamellar gratings, T. W. Du Bosq, R. E. Peale, E. W. Nelson, A. V. Muravjov, D. A. Walters, G. Subramanian, K. B. Sundaram,and C. J. Fredricksen, Optics & Laser Technology 37, 87-91 (2005).
46. Multi-layer silicon cavity mirrors for the far-infrared p-Ge laser, T. W. Dubosq, A. V. Muravjov, R. E. Peale, and C. J. Fredricksen, Applied Optics 44, 7191 (2005).
47. Terahertz gain on intersubband transitions in multilayer delta-doped p-Ge structures, M. V. Dolguikh, A. V. Muravjov, and R. E. Peale, M. Klimov, O. A. Kuznetsov, and E. A. Uskova, J. Appl. Phys. 98, 023107 (2005).
48. Inter-valence-band hole-hole scattering in cubic semiconductors, M. V. Dolguikh, A. V. Muravjov, R. E. Peale, Phys. Rev. B 73, 075327 (2006).
49. Terahertz amplification in delta-doped germanium films with in plane transport, M. V. Dolguikh, A. V. Muravjov, R. E. Peale, J. Appl. Phys. 99, 093106 (2006).
50. Anisotropic optical phonon scattering of holes in cubic semiconductors, M. V. Dolguikh, R. E. Peale, J. Appl. Phys. 101, 113716 (2007).
51. Inter-valence-band hot hole laser in two-dimensional delta-doped homoepitaxial semiconductor structures, R. E. Peale, M. V. Dolguikh, and A. V. Muravjov, invited article, J. Nanoelectronics & Optoelectronics 2, 51-57 (2007).
52. Terahertz/millimeter wave characterizations of soils for mine detection: Transmission and scattering, T. W. Du Bosq, R. E. Peale, G. D. Boreman, Int. J. Infrared Milli Waves 29, 769-781 (2008).
53. Injection-seeded internal-reflection-mode p-Ge laser exceeds 10 W peak terahertz power , A. V. Muravjov, H. Saxena, R. E. Peale, C. J. Fredricksen, O. Edwards, and V. N. Shastin, J. Appl. Phys. 103, 083112 (2008).
54. D.J. Shelton, J.W. Cleary, J.C. Ginn, S.L. Wadsworth, R.E. Peale, D.K. Kotter and G.D. Boreman .Gangbuster Frequency Selective Surface Metamaterials in the THz. Electronics Letters 44, 1288-1289 (2008).
55. Longwave plasmonics on doped silicon and silicides , Richard Soref, Robert E. Peale, and Walter Buchwald, OPTICS EXPRESS 16, 6507 (2008).
56. Propagation of high-frequency surface plasmons on gold , R. E. Peale, O. Lopatiuk, J. Cleary, S. Santos, J. Henderson, D. Clark, L. Chernyak, T. A. Winningham, E. Del Barco, H. Heinrich and W. R. Buchwald, J. Opt. Soc. Am. B 25, 1708-1713 (2008).
57. Tunable two-dimensional plasmon resonances in an InGaAs/InP high electron mobility transistor , H. Saxena, R. E. Peale, W. R. Buchwald, J. Appl. Phys. 105, 113101 (2009).
58. Tik Sun, Bo Yao, A. P. Warren, K. Barmak, M. F. Toney, R. E. Peale, and K. R. Coffey, .Dominant role of grain boundary scattering in the resistivity of nanometric Cu films, Phys. Rev. B 79, 041402 (2009).
59. IR permittivities for silicides and doped silicon , J. W. Cleary, R. E. Peale, D. J. Shelton, G. D. Boreman, C. W. Smith, M. Ishigami, R. Soref, A. Drehman, W.R. Buchwald, JOSA B 27, 730-734 (2010).
60. Long-wave infrared surface plasmon grating coupler , J. W. Cleary, G. Medhi, R. E. Peale, and W. R. Buchwald, Appl. Optics 49, 3102-3110 (2010).
61. Tik Sun, Bo Yao, Andrew P. Warren, Katayun Barmak, Michael F. Toney, Robert E. Peale, and Kevin R. Coffey, .Surface and grain boundary scattering in nanometric Cu films,. Physical Review B, vol. 81, Issue 15, 155454 (2010).
62. R. Soref, S.Y. Cho, W. Buchwald, R. E. Peale and J. Cleary, .Silicon Plasmonic Waveguides., Chapter 2 in Silicon Photonics for Telecommunications and Biomedical Applications, S. Fathpour and B. Jalali eds. ( Taylor and Francis, UK, 2010).
63. Neutron Irradiation-Induced Enhancement of Electronic Carrier Transport in ZnO, E. Flitsyian, C. Schwarz, L. Chernyak, R.E. Peale, Z. Dashevsky, W. Vernetson, Radiation Effects and Defects in Solids 166, 104 (2011).
64.
Far infrared spectroscopy of carbonate minerals,
Tatiana N. Brusentsova, Robert E. Peale, Douglas Maukonen,
George E. Harlow, Joseph S. Boesenberg, and Denton Ebel,
American Mineralogist 95, 1515(2010).
65.
A New gas cell for high-precision Doppler measurements in the near-infrared
,
L. Valdivielso, P. Esparza, E. L. Martín, D. Maukonen and R. E. Peale,
ApJ 715 1366 (2010).
66.
Temperature dependence of plasmonic terahertz absorption in grating-gate
gallium-nitride transistor structures
,
A. V. Muravjov, D. B. Veksler, V. V. Popov, O. V. Polischuk, N. Pala, X. Hu,
R. Gaska, H. Saxena, R. E. Peale, and M. S. Shur,
Appl. Phys. Lett. 96, 042105 (2010).
67. Effects of Polymer Infusion and Characteristic Length Scale on Gold-Black
Long-Wave and Far-Infrared Absorbance,
Justin W. Cleary, Robert E. Peale, Masahiro Ishigami, Christian W. Smith, Kevin Baillie,
Josh E. Colwell, Oliver Edwards, and Chris J. Fredricksen,
Journal of Materials Science and Engineering 5 (2011) 171-176
68.
Infrared surface plasmons on heavily doped silicon,
Monas Shahzad, Gautam Medhi, Robert E. Peale, Walter R. Buchwald, Justin W. Cleary, Richard Soref, Glenn D. Boreman, and Oliver Edwards,
JOURNAL OF APPLIED PHYSICS 110, 123105 (2011).
69.
"Laboratory far-infrared spectroscopy of terrestrial sulfides to support analysis of cosmic dust spectra,"
T. Brusentsova, R. E. Peale, D. Maukonen, P. Figueiredo,G. E. Harlow, D. S. Ebel, A. Nissinboim, K. Sherman, and C. M. Lisse,
Monthly Notices of the Royal Astronomical Society,
Mon. Not. R. Astron. Soc. 420, 2569–2579 (2012).
70.
Infrared surface polaritons on antimony,
Justin W. Cleary, Gautam Medhi, Monas Shahzad, Imen Rezadad, Doug Maukonen, Robert E. Peale,
Glenn D. Boreman, Sandy Wentzell, and Walter R. Buchwald,
Optics Express 20 (3), 2693-2705 (2012).
71.
"Millimeter-wave photoresponse due to excitation of two-dimensional plasmons in InGaAs/InP high-electron-mobility transistors,"
N. Nader Esfahani, R. E. Peale, W. R. Buchwald, C. J. Fredricksen, J. R. Hendrickson, and J. W. Cleary,
J. Appl. Phys. 114, 033105 (2013).
72.
Quantum cascade laser intracavity absorption spectrometer for trace gas sensing,
A. V. Muraviev, D. E. Maukonen, C. J. Fredricksen, Gautam Medhi, and R. E. Peale,
Appl. Phys. Lett. 103, 091111 (2013);
doi: 10.1063/1.4819764, View online: http://dx.doi.org/10.1063/1.4819764, copyright American Institute of Physics.
73.
Fano-Resonance Photonic Crystal Membrane Reflectors at Mid- and Far-Infrared,
Yichen Shuai, Deyin Zhao, Gautam Medhi, Robert Peale, Zhenqiang Ma,
Walter Buchwald, Richard Soref,Weidong Zhou,
IEEE Photonics Journal 5, 4700206 (2013).
74.
"In situ investigation of meteoritic organic-mineral relationships by high spatial resolution infrared spectroscopy,"
M. Yesiltas, C. J. Hirschmugl, R.E. Peale,
Meteoritics & Planetary Science 48, SI, Supplement: 1, A384 (2013.)
75.
Patterning of oxide-hardened gold black by photolithography and metal lift-off,
Deep Panjwani, Mehmet Yesiltas, Janardan Nath, D. E. Maukonen,
Imen Rezadad, Evan M. Smith, R. E. Peale, Miriam Unger,
Julia Sedlemair, Ralf Wehlitz, Carol Hirschmugl, Glenn Boreman,
Infrared Physics & Technology 62, 94-99 (2014).
76.
Optical Salisbury screen with design-tunable resonant absorption bands,
Janardan Nath, Evan Smith, Douglas Maukonen, and Robert E. Peale,
J. Applied Physics 115, 193103 (2014).
77.
Stencil lithography of gold-black IR absorption coatings,
D. Panjwani, M. Yesiltas, S. Singh, E.D. Barco, R.E. Peale, C. Hirschmugl, J. Sedlemair,
Infrared Physics & Technology 66, 1-5 (2014), doi:http://dx.doi.org/10.1016/j.infrared.2014.05.002
78.
"Robust multimaterial tellurium-based chalcogenide glass fibers for mid-wave and long-wave infrared transmission,"
Guangming Tao, Soroush Shabahang, He Ren, Farnood Khalilzadeh-Rezaie, Robert E. Peale, Zhiyong Yang, Xunsi Wang, and Ayman F. Abouraddy,
Optics Letters 39(13), 4009-4012 (2014).
79.
"Micro electro mechanical cantilever with electrostatically controlled tip contact,"
Imen Rezadad, Javaneh Boroumand, Evan M. Smith, and Robert E. Peale,
Appl. Phys. Lett. 105, 033514 (2014)
http://dx.doi.org/10.1063/1.4891496.
80.
"Synchrotron-Based Three-Dimensional Ftir Spectro-Microtomography Of Murchison,"
M. Yesiltas, J. Sedlmair, N. Walter, C. Hirschmugl, R. E. Peale,
Meteoritics & Planetary Science 49, A448-A448 Supplement: 1 Special Issue: SI (2014).
81.
"Infrared imaging spectroscopy with micron resolution of Sutter's Mill meteorite grains,"
Mehmet YESILTAS, Yoko KEBUKAWA, Robert E. PEALE, Eric MATTSON, Carol J. HIRSCHMUGL, and Peter JENNISKENS,
Meteoritics & Planetary Science 1–11 (2014)doi: 10.1111/maps.12321.
82.
"Propionaldehyde infrared cross-sections and band strengths,"
B. Koroglu, Z. Loparo, J. Nath, R. Peale, S. S. Vasu,
J Quantitative Spectroscopy & Radiative Transfer 152, 107-113 (2015),
83.
"Platinum germanides for mid- and long-wave infrared plasmonics,"
Justin W. Cleary, William H. Streyer, Nima Nader, Shiva Vangala, Ivan Avrutsky, Bruce Claflin,
Joshua Hendrickson, Daniel Wasserman, Robert E. Peale, Walter Buchwald, and Richard Soref,
Optics Express 23(3) 3316-3326 (2015).
84.
"Infrared surface polaritons on bismuth,"
Farnood Khalilzadeh-Rezaie, Christian W. Smith, Janardan Nath, Nima Nader, Monas Shahzad, Justin W. Cleary,
Ivan Avrutsky, and Robert E. Peale,
J. Nanophotonics 9, 093792 (2015).
85
Far-infrared absorber based on standing-wave resonances in metal-dielectric-metal cavity,
Janardan Nath, Sushrut Modak, Imen Rezadad, Deep Panjwani, Farnood Rezaie, Justin W. Cleary, and Robert E. Peale,
Optics Express 23(16) 20366-20380 (2015).
86.
"Organic and inorganic correlations for Northwest Africa 852 by synchrotron-based Fourier transform infrared microspectroscopy,"
M. Yesiltas, R. E. Peale, C. J. Hirschmugl,
Meteoritics and Planetary Science, 50 (10), 1684–1696 (2015).
87.
"Ultraviolet-assisted release of Microelectromechanical Systems from polyimide sacrificial layer",
Javaneh Boroumand, Imen Rezadad, Robert E. Peale, Justin W. Cleary and Kurt Eyink,
J. Microelectromechanical Systems 24 (6), 2027-2032 (2015).
88.
“Fluorine-doped tin oxides for mid-infrared plasmonics,”
Farnood Khalilzadeh-Rezaie, Isaiah O. Oladeji, Justin W. Cleary, Nima Nader, Janardan Nath, Imen Rezadad, and Robert E. Peale,
Optical Materials Express 5 (10), 2184-2192 (2015).
89.
“Aging of nano-morphology, resistivity, and far-infrared absorption in gold-black,”
Deep Panjwani, Aniruddha Dutta, Janardan Nath, Helge Heinrich, and Robert E. Peale,
J. Applied Physics 118, 154307 (2015).
90.
“Dual band sensitivity enhancements of a VOx microbolometer array using a patterned gold black absorber,”
Evan M. Smith, Deep Panjwani, James Ginn, Andrew P. Warren, Christopher Long, Pedro Figuieredo, Christian Smith,
Janardan Nath, Joshua Perlstein, Nick Walter, Carol Hirschmugl, Robert E. Peale, and David Shelton,
Applied Optics 55 (8), 2071-2078 (2016).
91.
"Synchrotron-based three-dimensional Fourier Transform Infrared spectro-microtomography of Murchison meteorite grain"
Mehmet Yesiltas, Julia Sedlmair, Robert Peale, and Carol Hirschmugl,
Applied Spectroscopy 71, 1198 (2017).
92.
“Electronic detection of surface plasmon polaritons by metal-oxide-silicon capacitor,”
Robert E. Peale, Evan Smith, Christian W. Smith, Farnood Khalilzadeh-Rezaie, Masa Ishigami,
Nima Nader, Shiva Vangala, and Justin W. Cleary,
APL Photonics 1, 066103 (2016); doi: 10.1063/1.4962428
93.
“Ropy foam-like TiO2 film grown by water-based process for electron-conduction layer of perovskite solar cells,”
Sarmad Fawzi Hamza Alhasan, Farnood Khalilzadeh-Rezaie, Robert E. Peale, Isaiah O. Oladeji,
MRS Advances 1 (#46, Energy and Environment), pp. 3169-3174 (2016).
94.
“BaTiO3 film grown by water-based process,”
Sarmad Fawzi Hamza Alhasan, Hussain Abouelkhair, Robert. E. Peale, Isaiah O. Oladeji,
ECS Transactions 72 (2) 343-349 (2016).
95.
“Effect of Compound Dielectric and Metal Thinning on Metal-Insulator-Metal Resonant Absorbers for Multispectral Infrared Air-Bridge Bolometers,”
R. E. Peale, S. Calhoun, C. J. Fredricksen, E. Smith, S. Vangala, K. Leedy, J. R. Hendrickson, and J. W. Cleary,
MRS Advances pp. 1-6 (2017).
doi: 10.1557/adv.2017.30.
96.
"Electrodynamic properties of aqueous spray deposited SnO2:F films for infrared plasmonics,"
Robert E. Peale, Evan Smith, Hussain Abouelkhair, Isaiah O. Oladeji, Shiva Vangala, Tim Cooper, Gordon Grzybowski, Farnood Khalilzadeh-Rezaie, Justin W. Cleary,
Opt. Eng. 56(3), 037109 (2017),
doi: 10.1117/1.OE.56.3.037109.
97.
“Conformal spray-deposited fluorine-doped tin oxide for mid- and long-wave infrared plasmonics”
Ricky Gibson, Shivashankar Vangala, Isaiah O. Oladeji, Evan Smith, Farnood Khalizadeh-Rezaie, Kevin Leedy,
Robert E. Peale, and Justin W. Cleary,
Optical Materials Express 7 (7), 2477-2486 (2017).
98.
“High Temperature Infrared Absorption Cross Sections of Methane around 3.4 micron in Gas Mixtures of Argon and Carbon-dioxide,”
Batikan Koroglu, Sneha Neupane, Robert E. Peale, Subith S. Vasu,
J. Quantitative Spectroscopy and Radiative Transfer 206, 36-45(2017).
99.
“Ternary lead-chalcogenide room-temperature midwave infrared detectors grown by spray-deposition,”
Hussain Abouelkhair, Pedro N. Figueiredo, Seth R. Calhoun, Chris J. Fredricksen, Isaiah O. Oladeji,
Evan M. Smith, Justin W. Cleary and Robert E. Peale,
MRS Advances 3, 291 (2018).
100.
“Smooth TiO2 Thin Films Grown by Aqueous Spray Deposition for Long-Wave Infrared Applications,”
Sarmad Fawzi Hamza Alhasan, Seth R. Calhoun, Hussain Abouelkhair, Vanessa C. Lowry, Robert E. Peale,
Imen Rezadad, Evan M. Smith, Justin W. Cleary, Isaiah O. Oladeji,
MRS Advances 3, 255 (2018).
101.
"Effect of dispersion on metal-insulator-metal infrared absorption resonances,”
S. R. Calhoun, V. C. Lowry, R. Stack, R. N. Evans, J. R. Brescia, C. J. Fredricksen, J. Nath, and R. E. Peale,
MRS. Comm. 8, 830 (2018).
102.
“Impact of temperature and gamma radiation on electron diffusion length and mobility in p-type InAs/GaSb superlattices,”
Jonathan Lee, Chris J. Fredricksen, Elena Flitsiyan, Robert E. Peale, Leonid Chernyak, Zahra Taghipour, Lilian Casias, Alireza Kazemi, Sanjay Krishna, and Stephen Myers,
J. Applied Physics 123, 235104 (2018);
doi: 10.1063/1.5030444
103.
“Vanadium Oxide Thin Film by Aqueous Spray Deposition,”
Seth Calhoun, Rachel Evans, Isaiah O. Oladeji, Justin Cleary, Evan M Smith, Robert E. Peale,
MRS Advances, Volume 3, Issue 45-46 (Nanomaterials) 2018, pp. 2777-2782 (2018).
104.
“Growth of MoS2 Thin Films with Microdome Texture as Omnidirectional Light Trap for Solar Cell Applications,”
Hussain M. Abouelkhair, Nina A. Orlovskaya, and Robert E. Peale,
2017 IEEE 44th Photovoltaic Specialist Conference (PVSC), Washington, DC 25-30 June 2017,
Added to IEEE Xplore: 05 November 2018,
DOI: 10.1109/PVSC.2017.8366016
105.
“Shock tube demonstration of acousto-optically modulated quantum cascade laser as a broadband, time-resolved combustion diagnostic,”
Zachary E. Loparo, Andrey V. Muraviev, Pedro Figueiredo, Arkadiy Lyakh, Robert E. Peale, Kareem Ahmed, Subith S. Vasu,
ASME J. Energy Resources Technology, J. Energy Resour. Technol 140(11), 112202 (Jun 12, 2018) (7 pages)
doi: 10.1115/1.4040381.
106.
“Far-infrared bands in plasmonic metal-insulator-metal absorbers optimized for long-wave infrared,”
Rachel N. Evans, Seth R. Calhoun, Jonathan R. Brescia, Justin W. Cleary, Evan M. Smith, and Robert E. Peale,
MRS Advances Volume 4, Issue 11-12 (Electronic, Photonic and Magnetic Materials), pp. 667-674 (2019)
https://doi.org/10.1557/adv.2019.53
107.
“Spray-on thermoelectric energy harvester,”
Robert E. Peale, Seth Calhoun, Nagendra Dhakal, Isaiah O. Oladeji, and Francisco J. González,
MRS Advances, Volume 4, Issue 15 (Energy-Transfer, Storage and Conversion), pp. 851-855 (2019),
https://doi.org/10.1557/adv.2018.654
108.
“Infrared absorption cross sections of several organo-phosphorous chemical-weapon simulants,”
Sneha Neupane, Colton E. Bishop, Robert Peale, Subith Vasu,
Journal of Molecular Spectroscopy Volume 355, January 2019, Pages 59-65.
109.
“Infrared Propagating Electromagnetic Surface Waves Excited by Induction,”
Jonathan R. Brescia, Justin W. Cleary, Evan M. Smith, Robert E. Peale,
MRS Advances 5, 1827-1836 (2020).
110.
“Infrared Pixel Based on Seebeck Nanoantennas,”
F. J. Gonzalez, N. Dhakal, T. O. Boykin II, J. Mendez-Lozoya, R. E. Peale, MRS Advances 5 1837 (2020).
111.
“Spray-deposited metal-chalcogenide photodiodes for low cost infrared imagers,”
Tommy O. Boykin II, Nagendra Dhakal, Javaneh Boroumand, F. Javier Gonzalez, Isaiah O. Oladeji, Pedro Figueiredo, Stephen Neushul, and Robert E. Peale,
MRS Advances 5, 2013 (2020).
112.
“Far-infrared spectrally selective LiTaO3 and AlN pyroelectric detectors using resonant subwavelength metal surface structures,”
Christopher Arose, Anthony C. Terracciano, Robert E. Peale, Francisco Javier Gonzalez, Zachary Loparo, John Cetnar, Subith S. Vasu,
MRS Advances 5, 2005 (2020).
113.
“Plasmonic infrared-laser attenuator,”
P. N. Figueiredo, S. R. DeMonaco, J. R. Phelps, R. Abdolvand, Reza; R. E. Peale,
Infrared Physics and Technology 111, 103561 (2020)
DOI: 10.1016/j.infrared.2020.103561.
114.
“Hydrogenation of Boron Carbon Nitride Thin Films for Low-k Dielectric Applications,”
S. D. Nehate, S. Sundaresh, R. Peale, K. B. Sundaram,
ECS J. Solid State Sci. Technol. 10, 093001 (2021).
115.
“Selective terahertz absorber for angle and polarization-independent spectral sensing,”
Christopher Arose, Anthony C. Terracciano, Robert E. Peale, and Subith S. Vasu,
Optics Lett. 47, 1514 (2022).
116.
“The sliding aperture transform and its applicability to deep-level, transient spectroscopy,”
W. R. Buchwald, R. E. Peale, P. C. Grant, J. V. Logan, P. T. Webster, C. P. Morath,
Appl. Sci. 12, 5317 (2022).
117.
“Infrared surface-plasmon-resonance attenuator for broadly controllable effective radiant temperature,”
R.E. Peale, P.N. Figueiredo, Justin R. Phelps, Kevin C. Chan, Reza Abdolvand, Evan M. Smith, Shivashankar Vangala,
Infrared Physics & Technology 125, 104253 (2022).
118.
“Pixelated carbon nanotube forests,”
Darian Smalley, Masa Ishigami & R. E. Peale,
MRS Advances (2023), https://doi.org/10.1557/s43580-023-00527-z
119.
“Antenna-coupled graphene josephson-junction terahertz detector,”
F. Javier Gonzalez, Michael S. Lodge, Masahiro Ishigami, Richard A. Klemm, Ami Rathod, Kirsten L. Lina, Anna C. Bowman,
Francisco Hernandez, Chris J. Fredricksen, Coleman Cariker & R. E. Peale,
MRS Advances 8, 148 (2023)