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Christopher L. Littler

Title: Professor

Department: Physics

College: College of Science

Curriculum Vitae

Curriculum Vitae Link

Education

  • PhD, North Texas State University, 1984
    Major: Physics
    Specialization: Investigation of the Linear and the Nonlinear Optical Properties of InSb
  • MS, North Texas State University, 1980
    Major: Physics
  • BS, Lamar University, 1977
    Major: Physics

Current Scheduled Teaching

PHYS 1520.001General Physics II with CalculusSpring 2025
PHYS 1520.201General Physics II with CalculusSpring 2025
PHYS 1510.001General Physics I with CalculusFall 2024 Syllabus SPOT
PHYS 1510.201General Physics I with CalculusFall 2024

Previous Scheduled Teaching

PHYS 1710.003MechanicsSpring 2024 Syllabus SPOT
PHYS 1710.211MechanicsSpring 2024 SPOT
PHYS 1710.212MechanicsSpring 2024 SPOT
PHYS 1710.213MechanicsSpring 2024 SPOT
PHYS 6950.771Doctoral DissertationFall 2023
PHYS 6940.780Individual ResearchFall 2023
PHYS 1710.002MechanicsFall 2023 Syllabus SPOT
PHYS 1710.206MechanicsFall 2023 SPOT
PHYS 1710.207MechanicsFall 2023 SPOT
PHYS 1710.208MechanicsFall 2023 SPOT
PHYS 1710.209MechanicsFall 2023 SPOT
PHYS 1710.210MechanicsFall 2023 SPOT
PHYS 6950.758Doctoral DissertationSpring 2023
PHYS 2220.004Electricity and MagnetismSpring 2023 Syllabus SPOT
PHYS 2220.216Electricity and MagnetismSpring 2023
PHYS 6940.750Individual ResearchSpring 2023
PHYS 6950.771Doctoral DissertationFall 2022
PHYS 6940.780Individual ResearchFall 2022
PHYS 1710.003MechanicsFall 2022 Syllabus SPOT
PHYS 1710.211MechanicsFall 2022
PHYS 1710.213MechanicsFall 2022
PHYS 1710.216MechanicsFall 2022
PHYS 4955.766Senior Thesis CapstoneFall 2022
PHYS 6950.771Doctoral DissertationSpring 2022
PHYS 6940.771Individual ResearchSpring 2022
PHYS 1710.003MechanicsSpring 2022 Syllabus SPOT
PHYS 1710.211MechanicsSpring 2022 Syllabus SPOT
PHYS 1710.212MechanicsSpring 2022 SPOT
PHYS 1710.213MechanicsSpring 2022 SPOT
PHYS 6950.771Doctoral DissertationFall 2021
PHYS 6950.771Doctoral DissertationSummer 10W 2021
PHYS 6950.771Doctoral DissertationSpring 2021
PHYS 6940.771Individual ResearchSpring 2021
PHYS 1052.100Solar SystemSpring 2021 Syllabus SPOT
PHYS 6950.771Doctoral DissertationFall 2020
PHYS 6940.771Individual ResearchFall 2020
PHYS 4955.703Senior Thesis CapstoneFall 2020
PHYS 1062.100Stars and the UniverseFall 2020 Syllabus SPOT
PHYS 1062.126Stars and the UniverseFall 2020
PHYS 6950.771Doctoral DissertationSpring 2020
PHYS 6940.771Individual ResearchSpring 2020
PHYS 4955.016Senior Thesis CapstoneSpring 2020
PHYS 1062.100Stars and the UniverseSpring 2020 Syllabus
PHYS 6950.771Doctoral DissertationFall 2019
PHYS 6940.771Individual ResearchFall 2019
PHYS 1710.003MechanicsFall 2019 Syllabus SPOT
PHYS 1710.211MechanicsFall 2019
PHYS 1710.213MechanicsFall 2019
PHYS 1710.214MechanicsFall 2019
PHYS 4950.703Senior ThesisFall 2019
PHYS 6940.771Individual ResearchSpring 2019
PHYS 4955.016Senior Thesis CapstoneSpring 2019
PHYS 5910.771Special ProblemsSpring 2019
PHYS 6940.771Individual ResearchFall 2018
PHYS 4950.703Senior ThesisFall 2018
PHYS 4955.703Senior Thesis CapstoneFall 2018
PHYS 5910.771Special ProblemsFall 2018
PHYS 4950.700Senior ThesisSummer 10W 2018
PHYS 1520.001General Physics II with CalculusSpring 2018 Syllabus SPOT
PHYS 1520.201General Physics II with CalculusSpring 2018 SPOT
PHYS 6940.771Individual ResearchSpring 2018
PHYS 4950.005Senior ThesisSpring 2018
PHYS 2900.771Special ProblemsSpring 2018
PHYS 5910.771Special ProblemsSpring 2018
PHYS 1315.001Introduction to the World of PhysicsFall 2017 Syllabus SPOT
PHYS 1315.002Introduction to the World of PhysicsFall 2017 Syllabus SPOT
PHYS 5910.771Special ProblemsFall 2017
PHYS 1520.001General Physics II with CalculusSpring 2017 Syllabus SPOT
PHYS 1520.201General Physics II with CalculusSpring 2017
PHYS 4955.016Senior Thesis CapstoneSpring 2017
PHYS 5910.771Special ProblemsSpring 2017
PHYS 1510.001General Physics I with CalculusFall 2016 Syllabus SPOT
PHYS 1510.201General Physics I with CalculusFall 2016
PHYS 5910.771Special ProblemsFall 2016
PHYS 1510.001General Physics I with CalculusSpring 2016 Syllabus SPOT
PHYS 1510.201General Physics I with CalculusSpring 2016
PHYS 1315.001Introduction to the World of PhysicsSpring 2016 SPOT
PHYS 1315.002Introduction to the World of PhysicsSpring 2016 Syllabus SPOT
PHYS 1510.001General Physics I with CalculusFall 2015 Syllabus SPOT
PHYS 1510.201General Physics I with CalculusFall 2015
PHYS 4955.703Senior Thesis CapstoneFall 2015
PHYS 4900.771Special ProblemsFall 2015
PHYS 1315.001Introduction to the World of PhysicsSpring 2015 Syllabus
PHYS 1315.002Introduction to the World of PhysicsSpring 2015 Syllabus
PHYS 4950.005Senior ThesisSpring 2015
PHYS 4950.010Senior ThesisSpring 2015
PHYS 4910.771Special ProblemsSpring 2015
PHYS 6950.771Doctoral DissertationFall 2014
PHYS 1510.001General Physics I with CalculusFall 2014 Syllabus
PHYS 1510.201General Physics I with CalculusFall 2014
PHYS 2910.106Special ProblemsSummer 5W2 2014
PHYS 2910.771Special ProblemsSummer 10W 2014
PHYS 6950.771Doctoral DissertationSpring 2014
PHYS 1315.001Introduction to the World of PhysicsSpring 2014 Syllabus
PHYS 2910.105Special ProblemsSpring 2014
PHYS 2910.106Special ProblemsSpring 2014
PHYS 6950.771Doctoral DissertationFall 2013
PHYS 1510.001General Physics I with CalculusFall 2013 Syllabus
PHYS 1510.201General Physics I with CalculusFall 2013 Syllabus
PHYS 1410.001General Physics ISpring 2013 Syllabus
PHYS 1410.204General Physics ISpring 2013
PHYS 1430.506General Physics Laboratory ISpring 2013
PHYS 1430.507General Physics Laboratory ISpring 2013
PHYS 1430.508General Physics Laboratory ISpring 2013
PHYS 1430.510General Physics Laboratory ISpring 2013
PHYS 1430.512General Physics Laboratory ISpring 2013
PHYS 6940.771Individual ResearchSpring 2013
PHYS 2910.105Special ProblemsSpring 2013
PHYS 6950.772Doctoral DissertationFall 2012
PHYS 1410.001General Physics IFall 2012 Syllabus
PHYS 1410.201General Physics IFall 2012 Syllabus
PHYS 1430.501General Physics Laboratory IFall 2012
PHYS 1440.501General Physics Laboratory IIFall 2012
PHYS 6940.771Individual ResearchFall 2012
PHYS 5900.771Special ProblemsFall 2012
PHYS 5910.771Special ProblemsFall 2012
PHYS 2910.105Special ProblemsSummer 5W1 2012
PHYS 2910.106Special ProblemsSummer 5W2 2012
PHYS 1315.002Introduction to the World of PhysicsSpring 2012 Syllabus
PHYS 2910.105Special ProblemsSpring 2012
PHYS 2910.106Special ProblemsSpring 2012
PHYS 5910.771Special ProblemsSpring 2012
PHYS 6910.771Special ProblemsSpring 2012
PHYS 6940.771Individual ResearchFall 2011
PHYS 2910.105Special ProblemsSummer 5W1 2011
PHYS 2910.106Special ProblemsSummer 5W2 2011
PHYS 2910.105Special ProblemsSpring 2011
PHYS 2910.106Special ProblemsSpring 2011
PHYS 5910.771Special ProblemsSpring 2011
PHYS 5910.771Special ProblemsFall 2010
PHYS 2910.105Special ProblemsSummer 5W1 2010
PHYS 2910.106Special ProblemsSummer 5W2 2010
PHYS 2910.771Special ProblemsSummer 5W2 2010
PHYS 1520.001General Physics II with CalculusSpring 2010
PHYS 1520.201General Physics II with CalculusSpring 2010
PHYS 2900.771Special ProblemsSpring 2010
PHYS 2910.105Special ProblemsSpring 2010
PHYS 2910.106Special ProblemsSpring 2010
PHYS 1510.001General Physics I with CalculusFall 2009
PHYS 1510.201General Physics I with CalculusFall 2009
PHYS 2910.105Special ProblemsSummer 5W1 2009
PHYS 2910.106Special ProblemsSummer 5W2 2009
PHYS 2910.105Special ProblemsSpring 2009
PHYS 2910.106Special ProblemsSpring 2009
PHYS 1510.001General Physics I with CalculusFall 2008
PHYS 1510.201General Physics I with CalculusFall 2008
PHYS 2220.001Electricity and MagnetismSpring 2008
PHYS 2220.201Electricity and MagnetismSpring 2008
PHYS 2220.204Electricity and MagnetismSpring 2008
PHYS 2220.211Electricity and MagnetismSpring 2008
PHYS 1520.001General Physics II with CalculusSpring 2008
PHYS 1520.201General Physics II with CalculusSpring 2008
PHYS 1061.106Stellar Systems Observations LaboratorySpring 2008
PHYS 1051.105The Solar Systems Observations LaboratorySpring 2008
PHYS 6950.771Doctoral DissertationFall 2007
PHYS 1510.001General Physics I with CalculusFall 2007
PHYS 1510.201General Physics I with CalculusFall 2007
PHYS 1061.106Stellar Systems Observations LaboratoryFall 2007
PHYS 1051.105The Solar Systems Observations LaboratoryFall 2007
PHYS 1051.205The Solar Systems Observations LaboratoryFall 2007
PHYS 1050.001Descriptive Astronomy: The Solar SystemSummer 3W1 2007
PHYS 6950.771Doctoral DissertationSummer 10W 2007
PHYS 1730.501Laboratory in MechanicsSummer 5W1 2007
PHYS 2240.501Laboratory in Wave Motion, Electricity, Magnetism and OpticsSummer 5W2 2007
PHYS 5900.771Special ProblemsSummer 5W1 2007
PHYS 1061.106Stellar Systems Observations LaboratorySummer 5W2 2007
PHYS 1051.105The Solar Systems Observations LaboratorySummer 5W1 2007
PHYS 6950.771Doctoral DissertationSpring 2007
PHYS 1520.001General Physics II with CalculusSpring 2007
PHYS 1520.201General Physics II with CalculusSpring 2007
PHYS 6910.771Special ProblemsSpring 2007
PHYS 1060.002STARS & THE UNIVSpring 2007
PHYS 1060.005STARS & THE UNIVSpring 2007
PHYS 1061.106Stellar Systems Observations LaboratorySpring 2007
PHYS 1051.105The Solar Systems Observations LaboratorySpring 2007
PHYS 6950.771Doctoral DissertationFall 2006
PHYS 1510.001General Physics I with CalculusFall 2006
PHYS 1510.201General Physics I with CalculusFall 2006
PHYS 4950.005Senior ThesisFall 2006
PHYS 5900.771Special ProblemsFall 2006
PHYS 5910.771Special ProblemsFall 2006
PHYS 1061.106Stellar Systems Observations LaboratoryFall 2006
PHYS 1051.105The Solar Systems Observations LaboratoryFall 2006
PHYS 1051.205The Solar Systems Observations LaboratoryFall 2006
PHYS 1050.001Descriptive Astronomy: The Solar SystemSummer 3W1 2006
PHYS 1730.501Laboratory in MechanicsSummer 5W1 2006
PHYS 2240.501Laboratory in Wave Motion, Electricity, Magnetism and OpticsSummer 5W2 2006
PHYS 1271.501Science and Technology of Musical Sound LaboratorySummer 5W1 2006
PHYS 5610.003Selected Topics in Modern PhysicsSummer 10W 2006
PHYS 2910.771Special ProblemsSummer 5W1 2006
PHYS 5900.771Special ProblemsSummer 10W 2006
PHYS 1061.106Stellar Systems Observations LaboratorySummer 5W2 2006
PHYS 1051.105The Solar Systems Observations LaboratorySummer 5W1 2006
PHYS 2220.003Electricity and MagnetismSpring 2006
PHYS 2220.203Electricity and MagnetismSpring 2006
PHYS 5900.771Special ProblemsSpring 2006
PHYS 1510.001General Physics I with CalculusFall 2005
PHYS 1510.201General Physics I with CalculusFall 2005
PHYS 5900.771Special ProblemsFall 2005
PHYS 1050.001Descriptive Astronomy: The Solar SystemSummer 3W1 2005
PHYS 5910.771Special ProblemsSummer 5W2 2005
PHYS 1061.106Stellar Systems Observations LaboratorySummer 5W2 2005
PHYS 1051.105The Solar Systems Observations LaboratorySummer 5W1 2005
PHYS 1410.003General Physics ISpring 2005
PHYS 1410.203General Physics ISpring 2005
PHYS 5930.752Research Problems in Lieu of ThesisSpring 2005
PHYS 5900.771Special ProblemsSpring 2005
PHYS 1050.004Descriptive Astronomy: The Solar SystemFall 2004
PHYS 1050.005Descriptive Astronomy: The Solar SystemFall 2004
PHYS 5920.002Research Problems in Lieu of ThesisFall 2004

Published Intellectual Contributions

    Abstracts and Proceedings

  • Syllaios, A.J., Farmer, G., Naciri, A., Philipose, U., Littler, C.L. (2024). Analyzing thermal conductance measurements in microbolometers. SPIE: Infrared Sensors, Devices, and Applications. 1314503 SPIE.
  • Naciri, A., Farmer, G., Littler, C.L., Syllaios, A.J., Philipose, U. (2024). Effects of thermal annealing on vanadium oxide thin film properties. SPIE: Infrared Sensors, Devices, and Applications. SPIE Digital Library as part of the proceedings of the 13145 conference. 13145 SPIE.
  • Littler, C.L., Syllaios, A., Lopes, V., Hargrove, M., Western, B., GUNAWIDJAJA, R., Yu, Z. (2018). Material considerations for current and next generation microbolometer technology. SPIE: The International Society for Optics and Photonics. 10656 8. Bellingham Washington, SPIE. http://spie.org/Publications/Proceedings/Paper/10.1117/12.2303728
  • Book Chapter

  • Littler, C.L., Lopes, V., Syllaios, A., Shrestha, K. (2021). Amorphous silicon microbolometers for IR imaging. Structure, Properties, and Applications of Tetrahedrally-Bonded Thin-Film Amorphous Semiconductors. 27 Warren Street, Suite 401-402 Hackensack, NJ 07601, World Scientific. worldscientific.com
  • Conference Proceeding

  • Harcrow, M.S., Littler, C., Philipose, U., Western, B., Lopes, V., Syllaios, A.J. (2022). Conductivity and low frequency noise in VOx thin films. SPIE: Infrared Sensors, Devices, and Applications. 12234 (1223405) 8.
  • D. G. Seiler, J. R. Lowney, C. L. Littler, and X. N. Song. (1992). Characterization of Hg1-x Cdx Te Detectors with the Shubnikov-de Haas Effect.
  • C. L. Littler, E. Maldonado, X. N. Song, J. L. Elkind, D. G. Seiler, and J. R. Lowney. (1992). Investigation of Mercury Interstitials in Hg1-x Cdx Te using Resonant Impact Ionization Spectroscopy.
  • M. R. Loloee, C. L. Littler, and D. G. Seiler. (1990). Magneto-Optical Investigations of Hg1-xCdxTe Alloys.
  • X. N. Song, C. L. Littler, W. Zawadzki, and D. G. Seiler. (1990). Phonon- Assisted Donor-Shifted Magneto-Optical Transitions in n-InSb.
  • S. A. Milazzo, C. L. Littler, D. G. Seiler, W. Zawadzki, M.R. Loloee, and A. J. Durkin. (1989). Measurement of the Energy Gap and Effective Mass in InSb: A Test for k. p Theory.
  • X. N. Song, C. L. Littler, M. R. Loloee, and D. G. Seiler. (1989). Nonlinear Oscillations and Chaotic Behavior in InSb.
  • M. R. Loloee, C. L. Littler, and D. G. Seiler. (1989). Temperature Dependence of the Energy Gap of Hg1-x Cdx Te using Nonlinear Optical Techniques.
  • R. L. Schalek, D. L. Leslie-Pelecky, D. G. Seiler, M. R. Loloee, and C. L. Littler. (1988). Investigation of Anomalous n-type LPE Hg1-x Cdx Te Samples Using the Magnetoconductivity Tensor Method.
  • C. L. Littler, D. G. Seiler, R. L. Schalek, D. L. Leslie-Pelecky, and M. R. Loloee. (1988). Investigation of n-type LPE Hg1-x Cdx Te Films Using the Magnetoconductivity Tensor Analysis.
  • D. L. Leslie-Pelecky, D. G. Seiler, M. R. Loloee, and C. L. Littler. (1987). A New Approach to the Characterization of Bulk and LPE Hg1-x Cdx Te Using Hall Coefficient and Magnetoresistance Measurements.
  • R. J. Justice, D. G. Seiler, M. R. Loloee, and C. L. Littler. (1987). Below Band Gap Optical Absorption Techniques for Investigating Carrier Lifetimes in p-type Hg1-x Cdx Te.
  • M. R. Loloee, D. G. Seiler, and C. L. Littler. (1987). Investigation of Photoconductive Carrier Lifetimes in n- and p-type Hg1-x Cdx Te.
  • C. L. Littler and D. G. Seiler. (1985). Photo-Hall Spectroscopy of Shallow and Deep Impurities in n-InSb.
  • C. L. Littler, D. G. Seiler, and S. W. McClure. (1984). Investigation of the Interaction of CO2 Laser Sb Using the Photo-Hall Effect.
  • C. L. Littler, D. G. Seiler, and S. W. McClure. (1984). Temperature Dependence of the Energy Gap of InSb Using Nonlinear Optical Techniques.
  • S. W. McClure, D. G. Seiler, and C. L. Littler. (1984). The Magnetophonon Effect in Hg1-x Cdx Te.
  • S. W. McClure, D. G. Seiler, and C. L. Littler. (1984). Two-Photon Magneto- Absorption Induced Resonant Carrier Lifetimes in n-InSb.
  • S. W. McClure, D. G. Seiler, and C. L. Littler. (1983). CO2 Laser-Induced Photoexcited Carrier Lifetimes in n-InSb.
  • C. L. Littler, D. G. Seiler, and S. W. McClure. (1983). Two-Photon Induced Photo-Hall Effect in n-InSb.
  • C. L. Littler, D. G. Seiler, R. Kaplan, and R. J. Wagner. (1982). High Resolution Magneto-Optical Studies of Bound and Free Hole Excitations in p-InSb.
  • C. L. Littler, D. G. Seiler, R. Kaplan, and R. J. Wagner. (1982). Magneto- Optical Detection of Deep Acceptor Impurities in p-InSb.
  • Journal Article

  • Sten, A., Roccapriore, K., Squires, B., Littler, C.L., Syllaios, A.J., Philipose, U. (2024). Influence of halogen precursors on the growth of InSb nanostructures. Semiconductor Science and Technology. 39 045013. IOP.
  • Philipose, U., Littler, C., Jiang, Y., AlNaciri, A., Harcrow, M., Syllaios, A.J. (2023). Analyzing the bolometric performance of vanadium oxide thin films modified by carbon nanotube dispersions. Materials. 16 (4) 1534. MDPI.
  • Farmer, G., Abraham, J., Littler, C.L., Syllaios, A.J., Philipose, U. (2022). Growth of Highly-Ordered Metal Nanoparticle Arrays in the Dimpled Pores of an Anodic Aluminum Oxide Template. Nanomaterials. 12 (22) 3929. MDPI.
  • Philipose, U., Jiang, Y., Western, B., Harcrow, M., Littler, C.L., Sood, A., Zeller, J.W., Lineberry, B., Syllaios, A. (2021). Impedance Analysis and Noise Measurements on Multi Walled Carbon Nanotube Network Materials.
  • Western, B.J., Harcrow, M.S., Philipose, U., Lopes, V., Syllaios, A.J., Littler, C.L., Andrews, S., Chang, T., Hong, J. (2021). Anomalous hopping in hydrogenated amorphous silicon doped with phosphine. Journal of Non-Crystalline Solids. no. 564 120845-120851. Elsevier. https://www.sciencedirect.com/journal/journal-of-non-crystalline-solids
  • Jiang, Y., Baben, M.t., Lin, Y., Littler, C.L., Syllaios, A., Neogi, A., Philipose, U. (2021). Analyzing growth kinematics and fractal dimensions of molybdenum disulfide films. Nanotechnology. 14 7509. Philadelphia, PA, IOP Publishing.
  • Philipose, U., Jiang, Y., Farmer, G., Howard, C., Harcrow, M., Littler, C.L., Lopes, V., Syllaios, A.J., Sood, A., Zeller, J. (2020). Using a Novel Approach to Estimate Packing Density and Related Electrical Resistance in Multiwall Carbon Nanotube Networks. Nanomaterials.
  • Littler, C.L., Lopes, V., Syllaios, A.J. (2017). Low frequency noise in hydrogenated p-type amorphous silicon thin films. Journal of Non-Crystalline Solids. 459 176. Elsevier. www.elsevier.com/locate/jnoncrysol
  • K. Shrestha, V.C. Lopes, A.J. Syllaios, and C.L. Littler. (2014). Raman spectroscopic investigation of boron doped hydrogenated amorphous silicon thin films. Journal of Non-Crystalline Solids. 403 80-83. Elsevier. https://www.elsevier.com/
  • Pradeep Gali, Gopal Sapkota, A.J. Syllaois, Chris Littler and U. Philipose. (2013). Stoichiomerty dependent electron transport and gas sensing properties of indium oxide nanowires. Nanotechnology. 24 225704. IOP Science,
  • V. C. Lopes, E. Hanson, D. Whitfield, K. Shrestha, C. L. Littler, and A. J. Syllaios. (2013). Temperature Dependence of 1/f Noise and Electrical Conductivity Measurements on p-type a-Si:H Devices.
  • A. J. Syllaios, S. K. Ajmera, G. S. Tyber, C. Littler, R. E. Hollingsworth. (2009). Raman Characterization of Protocrystalline Silicon Films,.
  • A. G. Birdwell, C. L. Littler, R. Glosser, M. Rebien, W. Henrion, P. Stauss, and G. Behr. (2008). Evidence for an indirect gap in b-FeSi2 epilayers by photoreflectance spectroscopy.
  • W. Zhao, T. D. Golding, C. L. Littler, J. H. Dinan, J. A. Dura, and R. M. Lindstrom. (2007). Diffusion of Se in Liquid-Phase Epitaxy-Grown HgCdTe.
  • Vijay R. D'Costa, Candi S. Cook, A.G. Birdwell, Chris L. Littler, Michael Canonico, Stefan Zollner, John Kouvetakis2, and José Menéndez. (2006). Optical Critical Points of Thin-Film Ge1-ySn y Alloys: A Comparative Ge1-ySny/Ge1-xSix Study.
  • B. P. Gorman, A. G. Norman, R. Lukic-Zrnic, C. L. Littler, H.R. Moutinho,T. D. Golding, and A. G. Birdwell. (2005). Atomic Ordering-Induced Band-Gap Reductions in Ga1-xAsxSb Epilayers Grown by Molecular Beam Epitaxy.
  • A. G. Birdwell, A. Davydov, C. L. Littler, R. Glosser, F. H. Pollak and L. Malikova. (2005). Optical Investigations of Semiconducting FeSi2 using Photoreflectance Spectroscopy.
  • C. L. Littler, B. P. Gorman, D. F. Weirauch, P. K. Liao and H. F. Schaake. (2005). Temperature, Thickness, and Interfacial Composition Effects on the Absorption Properties of (Hg,Cd)Te Epilayers Grown by Liquid Phase Epitaxy on CdZnTe.
  • B. P. Gorman, A. G. Norman, R. Lukic-Zrnic, T. D. Golding, and C. L. Littler. (2004). Effects of Substrate Orientation on the Spontaneous Ordering of GaAsSb Epilayers grown by Molecular Beam Epitaxy.
  • A. G. Birdwell, T. J. Shaffner, D. Chandler-Horowitz, G.H. Buh, M. Rebien, W. Henrion, P. Stau, G. Behr, L. Malikova, F. H. Pollak, C. L. Littler, R. Glosser, and S. Collins. (2004). Excitonic Transitions in b-FeSi2 Epitaxial Films and Single Crystals.
  • Wei Zhao, R. Lukic-Zrnic, B. P. Gorman, R. L., Cottier, T. D. Golding, C. L. Littler, J. H. Dinan, L. A. Almeida, J. A. Dura, R. M. Linstrom, H. F. Schaake, and P. Liao. (2004). MagMagnetoconductivity Tensor Analysis of Anomolous Transport Effects in Neutron Irradiated HgCdTe Epilayers.
  • C. L. Littler, R. Lukic-Zrnic, R. J. Cottier B. P. Gorman,T. D. Golding, and A. G. Norman. (2003). Optical Characterization of Ordered GaAsSb Epilayers Grown by Molecular Beam Epitaxy on Various Orientations of GaAs.
  • A. Srujana, A. Wadhawan, K. Srikala, B.P. Gorman, R.J. Cottier, Wei Zhao, C.L. Littler, J.M. Perez, and T.D. Golding, A.G. Birdwell W. Henrion, M. Rebien, and P. Stauss, and R. Glosser. (2003). Raman and magneto transport studies of MBE grown b -FeSi2, b -(Fe1-xCrx)Si2, and b -(Fe1-xCox)Si2.
  • T. D. Golding, C.L. Littler and J. Dinan. (2002). A Discussion on the Utilization of Elemental Transmutation for Efficient p-type Doping in HgCdTe and HgCdTeSe: Approach and Methodology.
  • R. Lukic-Zrnic, B. P. Gorman, R. J. Cottier, T. D. Golding, C. L. Littler and A. G. Norman. (2002). Temperature dependence of the band gap of GaAsSb epilayers.
  • R. Lukic-Zrnic, D. W. Stokes, C. L Littler and T. D. Golding Semicond. (2001). Electrical and magnetotransport in AlxIn1-xAsySb1-y/GaSb multilayers.
  • D. Washington-Stokes, T. P. Hogan, P. C. Chow, T. D. Golding, U. Kirschbaum, C. L. Littler and R. Lukic. (1999). AlxIn1-xAs1-ySby/GaSb effective mass superlattices grown by molecular beam epitaxy.
  • D. Washington, T. Hogan, P.Chow, T. D. Golding, C. L. Littler and U. Kirschbaum. (1998). Al1-xInxAs1-ySby Heterojunctions and Multilayers grown by Molecular Beam Epitaxy for Effective Mass Superlattices.
  • E. M. Rabinovich, J. M, Kowalski, C. L. Littler, A. Bystrik, J. Prasad, and B. J. West (authors); V. V. Tuchin (editor). (1997). Dynamical Instabilities in a CO2 Laser with an Externally Modulated Optical Feedback.
  • J. Baars, C. L. Littler, D. Brink, and M. Bruder. (1996). Magnetophonon Oscillations in the Transverse and Longitudinal Magnetothermal EMF of HgCdTe.
  • C. L. Littler. (1995). Bending of N-isopropylacrylamide gel under the influence of infrared light.
  • X. Zhang, Y. Li, Z. Hu, and C. L. Littler. (1995). CO2 laser controlled transmission of visible light in N-isopropylacrylamide gel.
  • X. Zhang, Y. Li, Z. Hu, C. Li, and C. L. Littler. (1995). Effect of Infrared radiation on Polymer Gels.
  • J. Baars, C. L. Littler, D. Brink, and M. Bruder. (1995). Magnetophonon Oscillations in the Longitudinal Magnetothermal EMF of HgCdTe.
  • J. Baars, D. Brink, C. L. Littler, and M. Bruder. (1995). Nondestructive Characterization of HgCdTe Layers with p-n Structures by Magneto-Thermoelectric Measurements.
  • E. M. Rabinovich, C. L. Littler, J. M. Kowalski, and D. L. Maxon. (1995). Remote Vibration Sensing Using a Radio-Frequency Autooscillatory Opto-Electronic Circuit with a Fiber-Optical Delay Line.
  • X. Zhang, Y. Li, Z. Hu, C. Li, and C. L. Littler. (1994). Bending of N-isopropylacrylamide gel under the influence of infrared light.
  • C.Littler. (1994). Deep Level Centres in HgCdTe.
  • X. Zhang, Y. Li, Z. Hu, C. Li, and C. L. Littler (authors); C. A. Rogers and G. G. Wallace (editors). (1994). Infrared-light Induced Volume Phase transition in N-isopropylacrylamide gel.
  • A. J. Syllaios, L. Colombo, D. Chandra, J. Dodge, H. D. Shih, M. Bevan, C. L. Littler, G. Brostow, X. N., Song ,C. R. Christensen, J. A. Grisham, and F. W. Clarke. (1994). Magneto-Optical Characterization of HgCdTe Thin Films.
  • A. J. Syllaios, D. Weirauch, J. A. Anderson, M. Woolsey, L. Taylor, C. L. Littler, C. R. Christensen, J. A. Grisham, and F. W. Clarke. (1994). Magneto-Optical Screening of HgCdTe in Production.
  • Z. Yu, J. Steinshnider, C. L. Littler, J. M. Perez, and J. M. Kowalski. (1994). Stabilization of Quasiperiodic Orbits for Line-Coupled Diode Resonator Systems.
  • C. L. Littler, A.J. Syllaios, and V. C. Lopes. (1994). The Effect of Deep Levels on Lifetimes in HgCdTe.
  • C. L. Littler. (1993). Characterization of Impurities and Defects in InSb and Hg1-x Cdx Te using Novel Magneto-Optical Techniques.
  • A. J. Syllaios, C. L. Littler, V. C. Lopes, X. N. Song, C. R. Christensen, J. A. Grisham, and F. W. Clarke. (1993). Faraday Rotation Analysis of Hg1-x Cdx Te.
  • J. R. Lowney, D. G. Seiler, W. R. Thurber, C. L. Littler, Z. Yu, and X. N. Song. (1993). Heavily Accumulated Surfaces of Hg1-x Cdx Te Detectors: Theory and Experiment.
  • A. J. Syllaios, V. C. Lopes, L. Taylor, M. Woosley, C. L. Littler, C. R. Christensen, J. A. Grisham, and F. W. Clarke. (1993). Progress on Magneto-Optical Characterization of LWIR HgCdTe.
  • C. L. Littler, X. N. Song, Z. Yu, J. L. Elkind, J. R. Lowney and D. G. Seiler. (1993). RII Spectroscopy Of Trap Levels in Bulk and LPE Hg1-x Cdx Te.
  • W. Zawadzki, I. T. Yoon, C. L. Littler, X. N. Song, and P. Pfeffer. (1992). Anisotropy of the Conduction Band of InSb: Orbital and Spin Properties.
  • C. L. Littler. (1992). Autonomous and Externally Driven Periodic and Chaotic Hall Voltage Oscillations in n-InSb.
  • D. G. Seiler, J. R. Lowney, C. L. Littler, and I. T. Yoon. (1992). Intrinsic Carrier Concentration in Long Wavelength Hg1-x Cdx Te Based on the New Nonlinear Dependence of Eg (x,T).
  • A. J. Syllaios, J. E. Fulp, A. P. Hunt, H. F. Shaake, C. L. Littler, C. R. Christensen, J. A. Grisham, and F. W. Clarke. (1992). Magneto-Optical Analysis of Hg1-x Cdx Te and other Semiconductors.
  • C. L. Littler. (1992). Synchronization of Chaos in Coupled Tunnel Diode Relaxation Oscillators.
  • D. G. Seiler, J. R. Lowney, C. L. Littler, and I. T. Yoon. (1991). Intrinsic Carrier Concentration in Long Wavelength Hg1-x Cdx Te Based on the New Nonlinear Dependence of Eg (x,T).
  • D. G. Seiler, J. R. Lowney, C. L. Littler, I. T. Yoon, and M. R. Loloee. (1991). Photoexcited Hot Electron Relaxation Processes in n-Hg1-x Cdx Te Through Impact Ionization into Traps.
  • C. L. Littler, M. R. Loloee, W. Zawadzki, and D. G. Seiler. (1990). Bound-Hole Excitations in p-Hg1-x Cdx Te.
  • W. Zawadzki, X. N. Song, C. L. Littler, and D. G. Seiler. (1990). High Excited States of Magneto-Donors in InSb: An Experimental and Theoretical Study.
  • C. L. Littler, D. G. Seiler, and M. R. Loloee. (1990). Magneto-Optical Investigation of Impurities and Defects in Hg1-x Cdx Te Alloys.
  • D. G. Seiler and C. L. Littler. (1990). Narrow Gap Semiconductors: Perspective and State of the Art.
  • C. L. Littler, I. T. Yoon, X. N. Song, W. Zawadzki, P. Pfeffer, and D. G. Seiler. (1990). Orbital and Spin Anisotropy of Conduction Electrons in InSb.
  • C. L. Littler. (1990). Phonon-Assisted Magneto-Donor Optical Transitions in n-InSb.
  • D. G. Seiler, J. R. Lowney, C. L. Littler, and M. R. Loloee. (1990). Temperature and Composition Dependence of the Energy Gap of Hg1-x Cdx Te by Two-Photon Magnetoabsorption Techniques.
  • C. L. Littler. (1989). Donor-Shifted Phonon-Assisted Magneto-Optical Resonances in n-InSb.
  • D. G. Seiler, M. R. Loloee, S. A. Milazzo, and C. L. Littler. (1989). New Laser-Based Magneto-Optical Studies of Hg1-x Cdx Te Alloys.
  • D. G. Seiler, C. L. Littler, M. R. Loloee, and S. A. Milazzo. (1989). Nonlinear Magneto-Optical Spectroscopy of Hg1-x Cdx Te by Two-Photon Absorption Techniques.
  • D. G. Seiler, S. A. Milazzo, A. J. Durkin, M. R. Loloee, and C. L. Littler. (1988). Simultaneous Measurement of the Energy Gap and Conduction Band Effective Mass in n-InSb.
  • D. G. Seiler and C. L. Littler. (1988). Two-Photon Spectroscopy of InSb-Type Semiconductors.
  • D. L. Leslie-Pelecky, D. G. Seiler, M. R. Loloee, and C. L. Littler. (1987). A New Method of Characterizing Majority and Minority Carriers in Semiconductors.
  • D. G. Seiler, C. L. Littler, and D. Heiman. (1987). Two-Photon Spectroscopy of GaAs.
  • D. G. Seiler, K. H. Littler, and C. L. Littler. (1986). Bound Excitons in the Narrow-Gap Semiconductor InSb.
  • C. L. Littler and D. G. Seiler. (1986). CO2 Laser Spectroscopy of Shallow and Deep Levels in n-InSb by Photo-Hall Techniques.
  • D. G. Seiler and C. L. Littler. (1986). Nonlinear Spectroscopy of Narrow Gap Semiconductors in the High Magnetic Fields.
  • D. G. Seiler, C. L. Littler, R. J. Justice, and P. W. Milonni. (1985). Nonlinear Oscillations and Chaos in n-InSb.
  • D. G. Seiler, C. L. Littler, and R. J. Justice. (1985). Nonlinear Oscillations, Bifurcation and Chaos in n-InSb.
  • C. L. Littler and D. G. Seiler. (1985). Temperature Dependence of the Energy Gap of InSb Using Nonlinear Optical Techniques.
  • S. W. McClure, D. G. Seiler, C. L. Littler, and M. W. Goodwin. (1985). The Magnetophonon Effect: A Tool for Characterizing Hg1-x Cdx Te.
  • D. G. Seiler, C. L. Littler, and D. Heiman. (1985). Two-Photon Spectroscopy of GaAs.
  • S. W. McClure, D. G. Seiler, and C. L. Littler. (1984). Laser Induced Resonant Carrier Lifetimes in n-InSb.
  • D. G. Seiler, C. L. Littler, and S. W. McClure. (1984). New Photoelectronic Investigations of the Nonlinear Optical Properties of n-InSb.
  • C. L. Littler, D. G. Seiler, and S. W. McClure. (1984). Two-Photon Resonant Photo-Hall Effect in n-InSb.
  • C. L. Littler, D. G. Seiler, R. Kaplan, and R. J. Wagner. (1983). High Resolution Magneto-Optical Studies of Free and Bound Holes in p-InSb.
  • R. Kaplan, R. J. Wagner, D. G. Seiler, C. L. Littler, M. H. Weiler, and W. Zawadzki (authors); E. Gornik, H. Heinrich, and L. Palmetshafer (editors). (1982). High Resolution Magneto-Optical Studies of Free and Bound Hole Excitations in InSb.
  • C. L. Littler, D. G. Seiler, R. Kaplan, and R. J. Wagner. (1982). Magneto-Optical Detection of Deep Acceptor Impurities in p-InSb.
  • C. L. Littler, D. G. Seiler, R. Kaplan, R. J. Wagner, and W. Zawadzki. (1981). High Resolution Magneto-Optical Studies of p-InSb.

Contracts, Grants and Sponsored Research

    Contract

  • Littler, C.L. (Co-Principal), Syllaios, A. (Principal), Philipose, U. (Co-Principal), "VO switch program," sponsored by DRS Infrared Technologies, Private, $76000 Funded. (2018 - 2018).
  • Littler, C.L., Syllaios, A.J. (Co-Principal), "Electrical Characterization of a-Si Materials," sponsored by L-3 Communications, Private, $121100 Funded. (2016 - 2018).
  • Littler, C.L., Syllaios, A.J. (Principal), "Laser Protection VO NVEOL," Federal, $100381 Funded. (2017 - 2018).
  • Littler, C.L. (Principal), Syllaios, A.J. (Co-Principal), "Laser Protection VO," sponsored by DRS Infrared, Private, $69900 Funded. (2016 - 2017).
  • Littler, C.L., "Electrical Characterization of a-Si Materials," sponsored by L-3 Communications, Private, $65112 Funded. (2016 - 2016).
  • Littler, C.L. (Principal), "CHARACTERIZATION OF AMORPHOUS SILICON THIN FILMS," sponsored by L-3 Communications, Private, $975000 Funded. (2010 - 2014).
  • Littler, C.L. (Co-Principal), Philipose, U. (Co-Principal), Syllaios, A. (Principal), "DRS project; Export Controlled at Award - Title removed," sponsored by DRS Network & Imaging Systems, LLC, Private, Funded. (2019 - 2020).
  • Littler, C.L. (Co-Principal), Syllaios, A. (Principal), Philipose, U. (Co-Principal), "VO switch program," sponsored by DRS Infrared Technologies, Private, Funded. (2018 - 2018).
  • Littler, C.L., Syllaios, A.J. (Co-Principal), "Electrical Characterization of a-Si Materials," sponsored by L-3 Communications, Private, Funded. (2016 - 2018).
  • Littler, C.L., Syllaios, A.J. (Principal), "Laser Protection VO NVEOL," Federal, Funded. (2017 - 2018).
  • Littler, C.L. (Principal), Syllaios, A.J. (Co-Principal), "Laser Protection VO," sponsored by DRS Infrared, Private, Funded. (2016 - 2017).
  • Littler, C.L., "Electrical Characterization of a-Si Materials," sponsored by L-3 Communications, Private, Funded. (2016 - 2016).
  • Littler, C.L. (Principal), "CHARACTERIZATION OF AMORPHOUS SILICON THIN FILMS," sponsored by L-3 Communications, Private, Funded. (2010 - 2014).
  • Grant - Research

  • Philipose, U. (Principal), Littler, C.L. (Co-Principal), Syllaios, A.J. (Co-Principal), "MANTECH UL1280 PATH FINDER LOTS VOX CHARACTERIZATION FOR UNT," sponsored by DRS Network & Imaging Systems, LLC, National, $199186 Funded. (2023 - 2024).
  • Philipose, U. (Principal), Athanasios, S. (Co-Principal), Littler, C. (Co-Principal), "Export Controlled/Classified – Title Removed," sponsored by Direct Sponsor: DRS Network & Imaging Systems, LLC, Federal, $61441 Funded. (2022 - 2023).
  • Philipose, U. (Principal), Littler, C. (Co-Principal), Syllaios, A. (Co-Principal), "Design and Development of High Performance Microbolometer Using VOx, CNT and Graphene for LWIR Applications," sponsored by Magnolia Optical Technologies, Inc, National, $182407 Funded. (2019 - 2022).
  • Philipose, U. (Co-Principal), Littler, C. (Co-Principal), Syllaios, A. (Principal), "Measurement of Material Properties of Vanadium Oxide (VOx) Development, Research, and Engineering of Advance MicrobolometersMicrobolometers and ROICs (DREAMR)," sponsored by DRS Network & Imaging Systems, LLC, National, $376448 Funded. (2019 - 2021).
  • Philipose, U. (Co-Principal), Littler, C. (Co-Principal), Syllaios, A. (Principal), "Characterization of test structures built using Vanadium di-oxide (VO2) for Falcon program," sponsored by DRS Network & Imaging Systems, LLC, National, $90026 Funded. (2020 - 2021).
  • Littler, C.L. (Principal), Syllaios, A.J. (Co-Principal), "Characterization, Modelling, and Optimization of Cross-Linked Metal Nanoparticles," sponsored by Army Research Office, Federal, $120000 Funded. (2017 - 2020).
  • Littler, C.L. (Co-Principal), Lopes, V. (Co-Principal), Syllaios, A.J. (Principal), "Analysis of Electrical Transport Mechanisms in Amorphous Silicon Relevant to," sponsored by Army Research Office, Federal, $398698 Funded. (2010 - 2015).
  • Syllaios, A.J. (Co-Principal), Littler, C.L. (Co-Principal), Philipose, U. (Principal), "Design and Development of High Performance Microbolometer Using VOx, CNT and Graphene for LWIR Applications," sponsored by Magnolia Optical Technologies, Inc., IND, Funded. (2019 - 2022).
  • Syllaios, A.J. (Principal), Littler, C.L. (Co-Principal), Philipose, U. (Co-Principal), "Measurement of Material Properties of Vanadium Oxide (VOx) Development, Research, and Engineering of Advance MicrobolometersMicrobolometers and ROICs (DREAMR)," sponsored by DRS Network & Imaging Systems, LLC, IND, Funded. (2019 - 2021).
  • Syllaios, A.J. (Principal), Littler, C.L. (Co-Principal), Philipose, U. (Co-Principal), "Characterization of test structures built using Vanadium di-oxide (VO2) for Falcon program," sponsored by DRS Network & Imaging Systems, LLC, IND, Funded. (2020 - 2021).
  • Syllaios, A.J. (Co-Principal), Littler, C.L. (Principal), "Characterization, Modeling, and Optimization of Cross-Linked Metal Particles for Microbolometers," sponsored by Washington State University, NFP, Funded. (2018 - 2020).
  • Syllaios, A.J. (Principal), Littler, C.L. (Co-Principal), Philipose, U. (Co-Principal), "Export Controlled at Award - Title removed," sponsored by DRS Network & Imaging Systems, LLC, IND, Funded. (2018 - 2018).
  • Littler, C.L. (Principal), "Export Controlled at Award - Title Removed," sponsored by L-3 Technologies, Inc., IND, Funded. (2016 - 2018).
  • Syllaios, A.J. (Principal), Littler, C.L. (Co-Principal), "Export Controlled, title removed," sponsored by DRS Network & Imaging Systems, LLC, IND, Funded. (2017 - 2018).
  • Littler, C.L. (Principal), "DRS project; Export Controlled at Award - Title removed," sponsored by DRS Network & Imaging Systems, LLC, IND, Funded. (2016 - 2017).
  • Littler, C.L. (Principal), "DRS project; Export Controlled at Award - Title removed," sponsored by DRS Network & Imaging Systems, LLC, IND, Funded. (2016 - 2017).
  • Littler, C.L. (Co-Principal), Lopes, V. (Co-Principal), Syllaios, A.J. (Principal), "Analysis of Electrical Transport Mechanisms in Amorphous Silicon Relevant to," sponsored by Army Research Office, Federal, Funded. (2010 - 2015).
  • Sponsored Research

  • Philipose, U. (Principal), Syllaios, A. (Co-Principal), Littler, C.L. (Co-Principal), "Spatial mapping of one-dimensional nanostructures at the atomic level," sponsored by Oak Ridge National Laboratory, Federal, $20000 Funded. (2021 - 2023).
,
Overall
Summative Rating
Challenge and
Engagement Index
Response Rate

out of 5

out of 7
%
of
students responded
  • Overall Summative Rating (median):
    This rating represents the combined responses of students to the four global summative items and is presented to provide an overall index of the class’s quality. Overall summative statements include the following (response options include a Likert scale ranging from 5 = Excellent, 3 = Good, and 1= Very poor):
    • The course as a whole was
    • The course content was
    • The instructor’s contribution to the course was
    • The instructor’s effectiveness in teaching the subject matter was
  • Challenge and Engagement Index:
    This rating combines student responses to several SPOT items relating to how academically challenging students found the course to be and how engaged they were. Challenge and Engagement Index items include the following (response options include a Likert scale ranging from 7 = Much higher, 4 = Average, and 1 = Much lower):
    • Do you expect your grade in this course to be
    • The intellectual challenge presented was
    • The amount of effort you put into this course was
    • The amount of effort to succeed in this course was
    • Your involvement in course (doing assignments, attending classes, etc.) was
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