Publications

Paper copies of NIST publications are available on request from: andrea.swiger@nist.gov

1.Burgess, D.R., Jr., Kreider, K.G., and Yust, M., Transient thermal response of plasma-sprayed zirconia measured with thin film thermocouples, Sensors and Actuators, A 24, pp. 155-161 (1990).

2.Burgess, D.R., Jr., Yust, M., and Kreider, K.G., Thin film thermocouples for measurement of wall temperatures in internal combustion engines, Heat Transfer in Combustion Systems 1990, (B. Farouk, W.L. Grosshandler, D.G. Lilley, and C. Presser, Eds.) ASME, NY, HTD, Vol. 142, pp. 43-48 (1990).

3.Burns, G.W., Strouse, G.F., Liu, B.M., and Mangum, B.W., Gold versus platinum thermocouples: performance data and an ITS-90 based reference function, In: Temperature, Its Measurement and Control in Science and Industry, Ed. by J.F. Schooley, Vol. 6 (Amer. Institute of Physics, New York, 1992).

4.Burns, G.W., Strouse, G.F., Mangum, B.W., Croarkin, M.C, Guthrie, W.F., and Chattle, New reference functions for platinum-13% rhodium versus platinum (Type R) and platinum-30% rhodium versus platinum-6% rhodium (Type B) thermocouples based on the ITS-90, In: Temperature, Its Measurement and Control in Science and Industry, Ed. by J.F. Schooley, Vol. 6 (Amer. Institute of Physics, New York, 1992).

5.Burns, G.W., Strouse, G.F., Mangum, B.W., etc., New reference function for platinum- 10% rhodium versus platinum (Type S) thermocouples based on the ITS-90, In: Temperature, Its Measurement and Control in Science and Industry, Ed. by J.F. Schooley, Vol. 6 (Amer. Institute of Physics, New York, 1992).

6.Burns, G.W., Strouse, G.F., Mangum, B.W., Cr oarkin, M.C., Guthrie, W.F., Marcarino, P., Battuello, M., Lee, H.K., Kim, J.C., Gam, K.S., Rhee, C., Chattle, M., Arai, M., Sakurai, H., Pokhodun, A.I., Moiseeva, N.P., Perevalova, S.A., and de Groot, M.J., Determination of (t90 - t68) between 630.615 C and 1064.18 C, BIPM Com. Cons. Thermométrie 18, CCT/93-18 (1993).

7.Burns, G.W., Scroger, M.G., Strouse, G.F., Croarkin, M.C., and Guthrie, W.F., Temperature-electromotive force reference functions and tables for the letter-designated thermocouple types based on the ITS-90, Nat'l. Inst. of Stand. and Technol. Monograph 175, U.S. Government Printing Office, Washington, DC (1993).

8.Burns, G.W., Strouse, G.F., Liu, B.M., and Mangum, B.W., Gold versus platinum thermocouples: performance data and an ITS-90 based reference function, In: Temperature, Its Measurement and Control in Science and Industry, Ed. by J.F. Schooley, Vol. 6 (Amer. Institute of Physics, New York, 1992).

9.Burns, G.W. and Ripple, D.C., "Techniques for Fabricating and Annealing Pt/Pd Thermocouples for Accurate Measurements in the Range 0 °C to 1300 °C," Proceedings of TEMPMEKO '96, 6th International Symposium on Temperature and Thermal Measurements in Industry and Science (in press).

10.Colwell, J.H., Fogle, W.F., and Soulen, R.J., The 3He melting curve thermometer as a universal temperature transfer standard, In: Temperature, Its Measurement and Control in Science and Industry, Ed. by J.F. Schooley, Vol. 6 (Amer. Institute of Physics, New York, 1992).

11.Crovini, L., Mangum, B.W., Kemp, R.C., Jung, H., Ling, S., and Sakurai, H., The relation between T(90) and the resistance of the platinum resistance thermometer, CCT Working Group 3 Report, BIPM Com. Cons. Thermometrie, Vol. 17, CCT/89-18 (1990).

12.Crovini, L., Jung, H.J., Kemp, R.C., Ling, S.K., Mangum, B.W., and Sakurai, H., The platinum resistance thermometer range of the International Temperature Scale of 1990, Metrologia 28, pp. 317-325 (1991).

13.Edsinger, R.E. and Schooley, J.F., Gas Thermometric Determination of T(KTTS) vs. T(IPTS-68) in the Range 230 °C to 660 °C, Metrologia 26, 95-106 (1989).

14.Furukawa, G.T., Argon Triple Point Apparatus with Multiple Thermometer Wells, , In: Temperature, Its Measurement and Control in Science and Industry, Ed. by J.F. Schooley, Vol. 6 (Amer. Institute of Physics, New York, 1992).

15.Furukawa, G.T., The effect of hydrostatic head on the liquid/solid equilibrium temperature of mercury during freezing and melting, BIPM Com. Cons. Thermometrie 18, CCT/93/20 (1993).

16.Furukawa, G.T., Mangum, B.W., and Strouse, G.F., "Effects of Different Methods of Preparation of Ice Mantles of Triple Point of Water Cells on the Temporal Behavior of the Triple-Point Temperatures," Metrologia 34 (1997).

17.Kreider, K.G., Thin film transparent thermocouples, Proc. IEEE Transducers '91, pp. 643-645 (1991).

18.Kreider, K.G., Thin film Ru02 and Ir02 thermocouples, Proceedings Volume 234 Materials Research Society, "Modern Perspectives on Thermoelectrics and Related Materials", (D. Allred and G. Slack, Eds.), Pittsburgh, PA (1991).

19.Kreider, K.G., Shapiro, A., Cline, J., and Moreland, J., Formation of high Tc superconductors on silicon wafers, Thin Solid Films, Vol. 195, pp. 117-125 (1991).

20.Kreider, K.G., Thin-film transparent thermocouples, Sensors and Actuators A 34, Elsevier Sequoia, Lausauue, Switzerland, pp. 94-99 (1992).

21.Kreider, K.G., Thin Film High Temperature Silicide Thermocouples, in Proc. of the 39th International Instrumentation Symposium, ISA, Research Triangle Park, NC, 541 (1993).

22.Kreider, K.G., Sputtered High Temperature Thin Film Thermocouples, J. of Vacuum Science and Technology A 11, Issue No. 4, pp. 1401-1405 (July 1993).

23.Kreider, K.G., High Temperature Silicide Thin-Film Thermocouples, in Proc. of Materials Research Society Symposium, Boston, MA, Nov. 28-30, 1993, High Temperature Silicides and Refractory Alloys, Vol. 32, MRS Publications, Pittsburgh, PA, pp. 285-290 (1994).

24.Kreider, K.G., Tarlov, M.J., Gillen, G.J., Poirier, G.E., Robins, L.H., Ives, L.K., Bowers, W.D., Marineneko, R.B., and Smith, D.T., "Sputtered Amorphous Carbon Nitride Films," J. Materials Research 10, 3079-3083 (1995).

25.Kreider, K.G. and Ruff, A.W., "Materials for Thin Film Sensors," Surface and Coatings Technology, accepted for publication May 16, 1996.

26.Mangum, B.W., Standard reference materials for use in precision thermometry, Proc. of 1990 Measurement Science Conference, paper 5A-1 (Feb. 9, 1990).

27.Mangum, B.W., Special Report of the International Temperature Scale of 1990; Report on the 17th Session of the Consultative Committee on Thermometry, J. Res. Natl. Inst. Stand. Technol. 95, 69-77 (1990).

28.Mangum, B.W. and Furukawa, G.T., Guidelines for realizing the international temperature scale of 1990 (ITS-90), NIST Technical Note 1265 (Aug. 1990).

29.Mangum, B.W. and Wise, J.A., Standard Reference Materials: Description and use of a precision thermometer for the clinical laboratory, SRM 934, Nat. Inst. Stand. Technol., Spec. Pub. 260-113 (June 1990).

30.Mangum, B.W., Pfeiffer, E.R., and Strouse, G.F., Non-uniqueness of some standard platinum resistance thermometers over the temperature range from 13 K to 1235 K, Proc. of the 4th IMEKO Symp. on Temperature and Thermal Measurement in Industry and Science, Helsinki, Finland (Sept. 1990).

31.Mangum, B.W., International Tempe rature Scale of 1990 (ITS-90), Handbook of Chemistry and Physics, 71st Edition, 1990-1991, pp. 1/11-12, (David R. Lide, Ed.), CRC Press, Inc., Boca Raton, FL (1991).

32.Mangum, B.W., Pfeiffer, E.R., and Strouse, G.F., Practical applications of the ITS-90: Inherent uncertainties, Proc. of the 1991 Meas. Sci. Conf., paper 1A/1-12 (Jan. 1991).

33.Mangum, B.W., Temperature measurement, in 1993 ASHRAE Handbook, Fundamentals, SI Edition, American Society of Heating, Refrigeration and Air-Conditioning Engineers, Inc., Atlanta, GA, 13.4-13.10 (1993).

34.Mangum, B.W., Section 3, Nos. 220-292, in Standard Handbook for Electrical Engineers, Thirteenth Edition, (D.G. Fink and H.W. Beaty, Eds.) McGraw-Hill, Inc., New York, (1993).

35.Mangum, B.W., Reproducibility of the Temperature of the Ice Point in Routine Measurements, NIST TN 1411, 25 (1995).

36.Mangum, B.W., Pfeiffer, E.R., Strouse, G.F., Valencia-Rodriguez, J., Lin, J.H., Yeh, T.I., Marcarino, P., Dematteis, R., Liu, Y., Zhao, Q., Ince, A.T., Cakiroglu, F., Nubbemeyer, H.G., and Jung, H.J., "Comparisons of Some NIST Fixed-Point Cells with Similar Cells of Other Standards Laboratories", Metrologia 33, 215-225 (1996).

37.Mangum, B.W., Bloembergen, P., Chattle, M.V., Marcarino, P., and Pokhodun, A.P., "Recommended Techniques for Improved Realization and Intercomparisons of Defining Fixed Points, Report to the CCT by Working Group 1," Comité Consultatif de Thermométrie, 19e Session, CCT/96-8 (1996).

38.Mangum, B.W., Furukawa, G.T., Meyer, C.W., Reilly, M.L., Strouse, G.F., and Tew, W.L., "Realization of the ITS-90 at the National Institute of Standards and Technology," Comité Consultatif de Thermométrie, 19e Session, CCT/96-11 (1996).

39.Mangum, B.W., Furukawa, G.T., Meyer, C.W., Reilly, M.L., Strouse, G.F., and Tew, W.L., "Realization of the ITS-90 at the National Institute of Standards and Technology," Proceedings of TEMPMEKO '96, 6th International Symposium on Temperature and Thermal Measurements in Industry and Science (in press).

40.Meyer, C.W., and Reilly, M.L., Gas dependence of the effective area of the piston gage to be used for the NIST realization of the ITS-90, In: Temperature, Its Measurement and Control in Science and Industry, Ed. by J.F. Schooley, Vol. 6 (Amer. Institute of Physics, New York, 1992).

41.Meyer, C.W. and Reilly, M.L., Measurements of the gas dependence of the effective area of a piston gauge using H2, 3He, 4He, N2, CO2 and SF6, in Proc. of the CCM Second Seminar on Pressure Metrology from 1 kPa to 1 GPa, Metrologia 30, 595-597 (1994).

42.Meyer, C.W. and Reilly, M.L., A progress report on the primary realization of the international temperature scale of 1990 from 0.65 K to 83.8 K at the national institute of standards and technology, BIPM Com. Cons. Thermométrie 18, CCT/93-21 (1993).

43.Meyer, C.W. and Reilly, M.L., "Realization of the ITS-90 at the NIST in the Range 0.65 K to 5.0 K Using 3He and 4He Vapor-Pressure Thermometry," Metrologia, 33, 383-389 (1996).

44.Meyer, C.W. and Reilly, M.L., "Realization of the ITS-90 at NIST in the Range 3.0 K to 24.5561 K Using an Interpolating Constant Volume Gas Thermometer," Proceedings of TEMPMEKO '96, 6th International Symposium on Temperature and Thermal Measurements in Industry and Science (in press).

45.Ripple, D., Burns, G.W., and Scroger, M.G., Assessment of uncertainties of thermocouple calibrations at NIST, NISTIR 5340 (1994).

46.Ripple, D. and Young, S., "NIST Standard Reference Database 60 - NIST ITS-90 Thermocouple Database: Version 1.0," NIST NSRDS (1995).

47.Ripple, D., Burns, G.W., and Scroger, M.G., Assessment of uncertainties of thermocouple calibrations at NIST, NISTIR 5340 (1994).

48.Ripple, D. and Defibaugh, Dana, "Viscosity of the Saturated Liquid Phase of Three Fluorinated Ethanes," Journal of Chemical and Engineering Data (in press).

49.Soulen, R.J., Jr., Fogle, W.E., and Colwell, J.H., Systematic studies of the effect of a post detection filter on a Josephson junction noise thermometer, Physica B 165 & 166, 111 (1990).

50.Soulen, R.J., Jr., Fogle, W.E. and Colwell, J.H., Use of a resistive SQUID for Noise thermometry, Proc. IC-SQUID 1991, Springer Verlag (1991).

51.Soulen, R.J., Jr., Fogle, W.E. and Colwell, J.H., Systematic studies of the effect of a bandpass filter on a josephson-junction noise thermometer, IEEE Transactions on Magnetics 27, 2920-2923 (1991).

52.Soulen, R.J., Jr., Fogle, W.E., and Colwell, J.H., A decade of absolute noise thermometry at NIST using a resistive SQUID, , In: Temperature, Its Measurement and Control in Science and Industry, Ed. by J.F. Schooley, Vol. 6 (Amer. Institute of Physics, New York, 1992).

53.Strouse, G.F., Mangum, B.W., Nubbemeyer, H.G., and Jung, H.J., A direct comparison of three PTB silver fixed-point cells with the NIST silver fixed-point cell, BIPM Com. Cons. Thermométrie 18, CCT/93-22 (1993).

54.Strouse, G.F. and Mangum, B.W., Investigation of high-temperature platinum resistance thermometers at temperatures up to 962 °C, and, in some cases, 1064 °C, In: Temperature, Its Measurement and Control in Science and Industry, Ed. by J.F. Schooley, Vol. 6 (Amer. Institute of Physics, New York, 1992).

55.Strouse, G.F. and Mangum, B.W., NIST measurement assurance of SPRT calibrations on the ITS-90: A quantitative approach, in Proc. of the 1993 Measurement Science Conference, Session 1-D (1993).

56.Strouse, G.F., Furukawa, G.T., and Mangum, B.W., Preliminary results of a comparison of water triple-point cells prepared by different methods, BIPM Com. Cons. Thermométrie 18, CCT/93-24 (1993).

57.Strouse, G.F., NIST implementation and realization of the ITS-90 over the range 83 K to 1235 K: reproducibility, stability, and uncertainties, In: Temperature, Its Measurement and Control in Science and Industry, Ed. by J.F. Schooley, Vol. 6 (Amer. Institute of Physics, New York, 1992).

58.Strouse, G.F., NIST assessment of ITS-90 non-uniqueness for 25.5 ohm SPRTs at gallium, indium, and cadmium fixed points, In: Temperature, Its Measurement and Control in Science and Industry, Ed. by J.F. Schooley, Vol. 6 (Amer. Institute of Physics, New York, 1992).

59.Strouse, G.F., Investigation of the ITS-90 subrange inconsistencies for 25.5 ohm SPRTs, In: Temperature, Its Measurement and Control in Science and Industry, Ed. by J.F. Schooley, Vol. 6 (Amer. Institute of Physics, New York, 1992).

60.Strouse, G.F. and Mangum, B.W., Investigation of high-temperature platinum resistance thermometers at temperatures up to 962 °C, and, in some cases, 1064 °C, In: Temperature, Its Measurement and Control in Science and Industry, Ed. by J.F. Schooley, Vol. 6 (Amer. Institute of Physics, New York, 1992).

61.Strouse, G.F., Mangum, B.W., Nubbemeyer, H.G., and Jung, H.J., A direct comparison of three PTB silver fixed-point cells with the NIST silver fixed-point cell, BIPM Com. Cons. Thermométrie 18, CCT/93-22 (1993).

62.Strouse, G.F., and Tew, W.L., Assessment of uncertainties of calibration of resistance thermometers at the National Institute of Standards and Technology, NISTIR 5319 (1994).

63.Strouse, G.F., Standard Reference Material 1744: Aluminum Freezing-Point Standard, NIST SP, 260-124, 39 (1995).

64.Strouse, G.F. and Ince, A.T., "Standard Reference Material 1747: Tin Freezing-Point Cell, and Standard Reference Material 1748: Zinc Freezing-Point Cell," NIST SP260-127, 66 (1997).

65.Tew, W.L., and Mangum, B.W., "New procedures and capabilities for the calibration of cryogenic resistance thermometers at NIST", Advances in Cryogenic Engineering, Ed. by P. Kittel, 39B, pp. 1019-1026, (Plenum Press, New York, 1994).

66.Tew, W.L., Meyer, C.W., G.F. Strouse, and Furukawa, G.T., "Recent Advances in the Realization and Dissemination of the ITS-90 below 83.8 K at NIST", Advances in Cryogenic Engineering, Ed. by P. Kittel, 43A, pp. 733-740, (Plenum Press, New York,1998).

67.Tew, W.L., "Sealed Cell Devices for the Realization of Triple Point of Neon at the National Institute of Standards and Technology," Proceedings of TEMPMEKO '96, 6th International Symposium on Temperature and Thermal Measurements in Industry and Science on Temperature and Thermal Measurements in Industry and Science, Ed. by P. Marcarino,pp. 81-86, (Levrotto & Bella, Torino, 1997).

68.Tew, W.L., Strouse, G.F., and Meyer, C.W., "A Revised Assessment of Calibration Uncertainties for Capsule Type Standard Platinum and Rhodium-Iron Resistance Thermometers", NISTIR 6138 (NIST, Gaithersburg, MD, March 1998)

69.Wise, J.A., A procedure for the effective recalibration of liquid-in-glass thermometers, NIST SP 819, 17 pp. (1991).

70.Wise, J.A., Assessment of uncertainties of liquid-in-glass thermometer calibrations at the National Institute of Standards and Technology, NISTIR 5341 (1994).

71.Wise, J. A., Stability of glass-encapsulated disc-type thermistors, In: Temperature, Its Measurement and Control in Science and Industry, Ed. by J.F. Schooley, Vol. 6 (Amer. Institute of Physics, New York, 1992).

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