Environmental Engineering Reference
In-Depth Information
References
[1] Basics of measuring the dielectric properties of materials. Hewlett Packard Application
Note 1217-1, USA (1992)
[2] Axelrod, N., Axelrod, E., Gutina, A., Puzenko, A., Ishai, P.B., Feldman, Y.: Dielectric
spectroscopy data treatment: I. frequency domain. Meas. Sci. Technol. 15(4), 755-764
(2004)
[3] Bagad, V.S.: Microwave engineering. Technical Publications Pune, Pune (2009)
[4] Chen, L.F., Ong, C.K., Neo, C.P., Varadan, V.V., Varadan, V.K.: Microwave electronics:
measurement and materials characterization. John Wiley & Sons, UK (2004)
[5] Chen, W.: The electrical engineering handbook. Elsevier Academic Press, Burlington
(2005)
[6] Cole, K.S., Cole, R.H.: Dispersion and absorption in dielectrics: I. alternating current
characteristics. J. Chem. Phys. 9(4), 341-351 (1941)
[7] Datta, A.K., Anantheswaran, R.C.: Handbook of microwave technology for food appli-
cation. CRC Press, New York (2001)
[8] Davidson, D.W., Cole, R.H.: Dielectric relaxation in glycerol, propylene glycol, and
n-propanol. J. Chem. Phys. 19(12), 1484-1490 (1951)
[9] Debye, P.J.W.: Polar molecules. The Chemical Catalog Company Inc., New York (1929)
[10] Dyer, S.A.: Survey of instrumentation and measurement. John Wiley & Sons, USA
(2001)
[11] Folgero, K., Friiso, T., Hilland, J., Tjomsland, T.: A broad-band and high-sensitivity di-
electric spectroscopy measurement system for quality determination of low-permittivity
fluids. Meas. Sci. Technol. 6(7), 995-1008 (1995)
[12] Kao, H.P., Shwedyk, E., Cardoso, E.R.: Correlation of permittivity and water content
during cerebral edema. IEEE Trans. Biomedic. Eng. 46(9), 1121-1128 (1999)
[13] Hager III, N.E., Domszy, R.C.: Monitoring of cement hydration by broadband time-
domain-reflectometry dielectric spectroscopy. J. Appl. Phys. 96(9), 5117-5128 (2004)
[14] Havriliak, S., Negami, S.: Polymer 8, 161-201 (1967)
[15] Hayashi, Y., Oshige, I., Katsumoto, Y., Omori, S., Yasuda, A., Asami, K.: Temporal
variation of dielectric properties of preserved blood. Phys. Med. Biol. 53(1), 295-304
(2008)
[16] Huisman, J.A., Bouten, W., Vrugt, J.A., Ferre, P.A.: Accuracy of frequency domain
analysis scenarios for the determination of complex permittivity. Water Resour. Res. 40
(2004)
[17] Jones, S.B., Or, D.: Frequency domain analysis for extending time domain reflectometry
water content measurement in highly saline soils. Soil Sci. Soc. Am J. 68, 1568-1577
(2004)
[18] Kaatze, U., Feldman, Y.: Broadband dielectric spectrometry of liquids and biosystems.
Meas. Sci. Technol. 17(2), R17-R35 (2006)
[19] Mehta, P., Chand, K., Narayanswamy, D., Beetner, D.G., Zoughi, R., Stoecker, W.V.:
Microwave reflectometry as a novel diagnostic tool for detection of skin cancers. IEEE
Trans. Instrum. Meas. 55(4), 1309-1316 (2006)
[20] Miura, N., Yagihara, S., Mashimo, S.: Microwave dielectric properties of solid and liq-
uid foods investigated by time-domain reflectometry. J. Food Sci. 68(4), 1396-1403
(2003)
[21] Nelson, S.O., Bartley Jr, P.G.: Measuring frequency- and temperature-dependent per-
mittivities of food materials. IEEE Trans. Instrum. Meas. 51, 589-592 (2002)
Search WWH ::
Custom Search