@comment{x-kbibtex-personnameformatting=<%l><, %f>}

@phdthesis{these_Loic,
	author = "Braun, Loic",
	chapter = "Chapitre 2",
	institution = "Universit{\'e} de Franche-Comt{\'e}",
	pages = "46--53",
	school = "ED-SPIM",
	title = "{Composants {\`a} ondes {\'e}lastiques de surface pour le filtrage {\`a} gabarits ma{\^i}tris{\'e}s aux fr{\'e}quences radios pour applications spatiales et professionnelles}",
	year = "2015"
}

@techreport{pres_nmm,
	author = "Laroche, Thierry",
	institution = "Frec|n|sys",
	title = "{Numerical Tool : Mixed Matrix}",
	year = "2016"
}

@techreport{SCC_Cronos_1,
	author = "Sagnard, Marianne and Laroche, Thierry",
	institution = "Frec|n|sys",
	month = may,
	title = "{Tirage en fr{\'e}quence sur filtres SAW}",
	year = "2016"
}

@article{Pt_Pd_LGS,
	author = "A.Thiele, Jeremy and da Cunha, Mauricio Pereira",
	journal = "IEEE Transactions on ultrasonics, ferroelectrics, and frequency control",
	month = apr,
	number = "4",
	pages = "545--549",
	title = "{Platinium and Palladium high-temperature transducers on Langasite}",
	volume = "52",
	year = "2005"
}

@inproceedings{646840,
	author = "Enguang, Dai and Guanping, Feng",
	booktitle = "{Microwave and Optoelectronics Conference, 1997. Linking to the Next Century. Proceedings., 1997 SBMO/IEEE MTT-S International}",
	doi = "10.1109/SBMOMO.1997.646840",
	keywords = "gas sensors; remote sensing; sensor fusion; surface acoustic wave sensors; SAW ID-tag; explosive gas detection; multisensor; passive sensing; remote sensing; surface acoustic device; toxic gas detection; wireless sensing; Acoustic propagation; Acoustic pulses; Acoustic waves; Chemical sensors; Gas detectors; Gases; Power supplies; Remote sensing; Sensor arrays; Surface acoustic waves",
	month = "Aug",
	pages = "133--139 vol.1",
	title = "{Passive and remote sensing based upon surface acoustic wave in special environments}",
	volume = "1",
	year = "1997"
}

@article{BTS_publi,
	author = "Shen, Chuanying and others",
	journal = "Journal of applied physics",
	title = "{Investigations on the thermal and piezoelectric propertires of the fresnoite Ba$_2$TiSi$_2$O$_8$ single crystals}",
	volume = "116",
	year = "2014"
}

@article{wireless_SAW,
	author = "Reindl, L. and others",
	organization = "IEEE International Frequency Control Symposium",
	title = "{Wireless measurement of temperature using surface acoustic waves sensors}",
	year = "2003"
}

@phdthesis{Pastureaud,
	author = "Pastureaud, Thomas",
	booktitle = "{Etude de nouvelles structures pour la conception et la fabrication de filtres {\`a} ondes acoustiques guid{\'e}es hautes fr{\'e}quences}",
	chapter = "2",
	pages = "31--68",
	school = "Universit{\'e} de Franche-Comt{\'e}",
	title = "{Ondes planes electroacoustiques dans les structures stratifi{\'e}es}",
	year = "2002"
}

@book{Surf_wave_velo,
	author = "Jr., A. J. Slobodnik and Conway, E. D. and Delmonico, R. T.",
	publisher = "Bedford, Mass",
	title = "{Microwave Acoustics Handbook}",
	volume = "1A, Surface wave velocities",
	year = "1973"
}

@article{diffusion_MonteCarlo,
	author = "Mazumder, Sandip and Majumdar, Arunava",
	journal = "Journal of heat transfer",
	month = aug,
	pages = "749--759",
	title = "{Monte Carlo study of phonon transport in solid thin films including dispersion and polarization}",
	volume = "123",
	year = "2001"
}

@mastersthesis{LCH,
	author = "Chusseau, Laurent",
	school = "Universit{\'e} Montpellier 2",
	title = "{Param{\`e}tres S - Antennes. DEA}",
	year = "2005"
}

@article{Temp_sensors,
	author = "Buff, Werner and others",
	journal = "IEEE Transactions on ultrasonics, ferroelectrics, and frequency control",
	month = sep,
	number = "5",
	title = "{Passive and remote sensing based upon surface acoustic wave in special environments}",
	volume = "45",
	year = "1998"
}

@article{849370,
	author = "Hode, J. M. and Desbois, J.",
	booktitle = "{Ultrasonics Symposium, 1999. Proceedings. 1999 IEEE}",
	doi = "10.1109/ULTSYM.1999.849370",
	issn = "1051-0117",
	keywords = "Green's function methods; piezoelectricity; surface acoustic waves; Green function; SAW propagation; electroacoustic interaction; piezoelectric substrate; Convolution; Electrostatic analysis; Equations; Fourier transforms; Green's function methods; Permittivity; Space charge; Stress; Surface acoustic wave devices; Surface acoustic waves",
	month = "Oct",
	pages = "131--136 vol.1",
	title = "{Original basic properties of the Green's functions of a semi-infinite piezoelectric substrate}",
	volume = "1",
	year = "1999"
}

@article{LGSHTsennsors,
	author = "Laroche, Thierry and others",
	booktitle = "{4th International Symposium on Sensor Science}",
	journal = "4th International Symposium on Sensor Science",
	month = jun,
	title = "{Surface acoustic waves sensors on langasite substrates for high temperature measurements}",
	year = "2015"
}

@misc{JMpres,
	author = "Friedt, J.-M.",
	booktitle = "{ FOSDEM2016 }",
	title = "{Wideband measurement strategies: from RADAR to passive wireless sensors ... and how passive wireless sensors were/are used by intelligence agencies.}",
	year = "2016"
}

@inproceedings{6702160,
	author = "Chr{\'e}tien, N. and Friedt, J. M. and Martin, G. and Ballandras, S.",
	booktitle = "{European Frequency and Time Forum International Frequency Control Symposium (EFTF/IFC), 2013 Joint}",
	doi = "10.1109/EFTF-IFC.2013.6702160",
	keywords = "acoustic delay lines; field programmable gate arrays; radar signal processing; surface acoustic wave sensors; FPGA-based delay generator; low power receiver electronics; passive sensors; physical property measurement; probe acoustic delay lines; pulsed radar approach; stroboscopic approach; surface acoustic wave delay line interrogation; Acoustic measurements; Acoustics; Bandwidth; Delay lines; Delays; Radar; Sensors",
	month = "July",
	pages = "771--774",
	title = "{A stroboscopic approach to surface acoustic wave delay line interrogation}",
	year = "2013"
}

@inproceedings{7331429,
	author = "Laroche, T. and Garcia, J. and Courjon, E. and Ballandras, S. and Daniau, W.",
	booktitle = "{European Frequency and Time Forum (EFTF), 2014}",
	doi = "10.1109/EFTF.2014.7331429",
	keywords = "polynomial matrices; resonators; surface acoustic wave devices; thermal management (packaging); LGS cut; SAW devices; directive crystal cuts; langasite cut; mixed-matrix analysis; polynomial developments; reflection coefficient; surface acoustic wave devices; thermal perturbation; Electrodes; Gratings; Surface acoustic wave devices; Surface acoustic waves; Temperature dependence; Temperature sensors; Langasite (LGS); Surface Acoustic Wave (SAW); Temperature perturbation; electrical response; mixed matrix model",
	month = "June",
	pages = "71--74",
	title = "{A comprehensive model of the electrical response of SAW devices submitted to thermal perturbation}",
	year = "2014"
}

@inproceedings{7331474,
	author = "Fran\c{c}ois, B. and Martin, G. and Sakharov, S. and Davis, Z. and Richter, D. and Friedt, J. M. and Ballandras, S.",
	booktitle = "{European Frequency and Time Forum (EFTF), 2014}",
	doi = "10.1109/EFTF.2014.7331474",
	keywords = "Rayleigh waves; surface acoustic wave resonators; surface acoustic wave sensors; Rayleigh waves; SAW resonators; langasite coefficient; surface acoustic wave sensors; surface transverse waves; temperature coefficient of frequency; Accuracy; Crystals; Electrodes; Surface acoustic waves; Temperature distribution; Temperature measurement; Temperature sensors; Langasite (LGS); Surface Acoustic Wave (SAW); Temperature Coefficient of Frequency (TCF); data set accuracy",
	month = "June",
	pages = "235--238",
	title = "{A comparative study of LGS coefficient set accuracy assessed by experiments}",
	year = "2014"
}

@techreport{SCC_Cronos_5,
	author = "Sagnard, Marianne and Laroche, Thierry",
	institution = "Frec|n|sys",
	month = nov,
	title = "{{\'E}tude de l'{\'e}volution du tirage en fr{\'e}quences avec le nombre d'{\'e}lectrodes flottantes dans les miroirs}",
	year = "2016"
}

@techreport{SCC_Cronos_2,
	author = "Sagnard, Marianne and Laroche, Thierry",
	institution = "Frec|n|sys",
	month = jul,
	title = "{Influence de la position des {\'e}lectrodes flottantes dans les miroirs sur la r{\'e}ponse du syst{\`e}me}",
	year = "2016"
}

@techreport{SCC_Cronos_7,
	author = "Sagnard, Marianne and Laroche, Thierry",
	institution = "Frec|n|sys",
	month = jan,
	title = "{Correction d'erreurs relatives au PZ29}",
	year = "2017"
}

@inproceedings{6243720,
	abstract = "The possibility to remotely control impedance changes using resonant devices operating in the 434-MHz-centered Industry-Scientific-Medical (ISM) is demonstrated in this paper. The proposed principle is based on acoustically coupled modes in compact Surface Acoustic Wave (SAW) structures in which one port is connected to the variable load, the other being connected to a Radio-Frequency (RF) antenna for wireless interrogation purpose. The operation of the proposed principle is illustrated using a longitudinally-coupled resonator filter on quartz for ``On-Off'' switch remote control. Other sensor architecture are discussed as a conclusion of this work.",
	author = "Laroche, T. and Martin, G. and Daniau, W. and Ballandras, S. and Friedt, J. M. and Leguen, J. F.",
	booktitle = "{2012 IEEE International Frequency Control Symposium Proceedings}",
	doi = "10.1109/FCS.2012.6243720",
	issn = "2327-1914",
	keywords = "UHF antennas; radio transceivers; surface acoustic wave resonator filters; surface acoustic wave sensors; wireless sensor networks; ISM band; RF antenna; SAW structures; acoustic coupled modes; centered industry-scientific-medical band; compact surface acoustic wave structures; coupled-mode filter structure; frequency 434 MHz; longitudinally-coupled resonator filter; on-off switch remote control; quartz resonator filter; radio-frequency antenna; reactive loads; remotely control impedance; resonant devices; sensor architecture; wireless interrogation; wireless transceiver-sensors; Capacitance; Couplings; Frequency measurement; Radio frequency; Resonant frequency; Sensitivity; Transducers",
	month = "May",
	pages = "1--6",
	title = "{A coupled-mode filter structure for wireless transceiver-sensors using reactive loads}",
	year = "2012"
}

@techreport{SCV_PhD-marianne_1,
	author = "SAGNARD, Marianne",
	institution = "Frec|n|sys",
	month = aug,
	title = "{Influence de la variation de l'imp{\'e}dance de l'antenne de r{\'e}ception et de la variation de la charge en sortie sur la r{\'e}ponse d'un capteur}",
	year = "2016"
}

@article{refId0,
	author = "{JC Gaudu} and {JM Mathieu} and {JC Fumanal} and {L. Bruckler} and {A. Chanzy} and {P. Bertuzzi} and {P. Stengel} and {R. Guennelon}",
	doi = "10.1051/agro:19930105",
	journal = "Agronomie",
	number = 1,
	pages = "57--73",
	title = "{Mesure de l'humidit{\'e} des sols par une m{\'e}thode capacitive : analyse des facteurs influen\c{c}ant la mesure}",
	url = "http://dx.doi.org/10.1051/agro:19930105",
	volume = 13,
	year = 1993
}

@techreport{SCV_PhD-marianne_2,
	author = "SAGNARD, Marianne",
	institution = "Frec|n|sys",
	month = feb,
	title = "{Influence du coefficient de couplage sur le tirage en fr{\'e}quences d{\^u} {\`a} la variation des imp{\'e}dances d'entr{\'e}e et de sortie}",
	year = "2017"
}

@article{PLMS:PLMS0004,
	author = "Rayleigh, Lord",
	doi = "10.1112/plms/s1-17.1.4",
	issn = "1460-244X",
	journal = "Proceedings of the London Mathematical Society",
	number = "1",
	pages = "4--11",
	publisher = "Oxford University Press",
	title = "{On Waves Propagated along the Plane Surface of an Elastic Solid}",
	url = "http://dx.doi.org/10.1112/plms/s1-17.1.4",
	volume = "s1-17",
	year = "1885"
}

@article{doi:10.1063/1.1754276,
	author = "White, R. M. and Voltmer, F. W.",
	doi = "10.1063/1.1754276",
	eprint = "http://dx.doi.org/10.1063/1.1754276",
	journal = "Applied Physics Letters",
	number = "12",
	pages = "314--316",
	title = "{DIRECT PIEZOELECTRIC COUPLING TO SURFACE ELASTIC WAVES}",
	url = "http://dx.doi.org/10.1063/1.1754276",
	volume = "7",
	year = "1965"
}

@article{permcons,
	author = "oral B{\"u}y{\"u}k{\"o}zt{\"u}rk and Yu, Tzu-Yang and Ortega, Jose Alberto",
	institution = "Department of Civil and Environmental Engineering",
	journal = "Cement and Concrete Composites",
	pages = "349--359",
	school = "Massachusetts Institute of technology",
	title = "{A methodology for determining complex permittivity of construction materials based on transmission-only coherent, wide-bandwidth free-space measurements}",
	volume = "28",
	year = "2006"
}

@book{RD1,
	author = "Royer, Daniel and Dieulesaint, Eugene",
	publisher = "Springer",
	title = "{Elastic Waves in Solids 1 : Free and Guided Propagation}",
	year = "1999"
}

@article{KV,
	author = "Marynowski, Krzystof and Kapitaniak, Tomasz",
	institution = "Division of Dynamics",
	journal = "International journal of non-lienar mechanics",
	location = "Poland",
	pages = "1147--1161",
	school = "University of Lodz",
	title = "{Kelvin-Voigt versus B{\"u}rgers internal damping in modeling of axially moving viscoelastic web}",
	volume = "37",
	year = "2002"
}

@book{uclan7333,
	abstract = "The boundary element method (BEM) is a powerful tool in computational acoustic analysis. The Boundary Element Method in Acoustics serves as an introduction to the BEM and its application to acoustic problems and goes on to complete the development of computational models. Software implementing the methods is available.",
	author = "Kirkup, Stephen Martin",
	month = "October",
	publisher = "Integrated Sound Software",
	title = "{The Boundary Element Method in Acoustics}",
	url = "http://clok.uclan.ac.uk/7333/",
	year = "2007"
}

@book{zienkiewicz2000finite,
	author = "Zienkiewicz, O.C. and Taylor, R.L.",
	isbn = "9780750650496",
	lccn = "00710705",
	publisher = "Butterworth-Heinemann",
	series = "{Referex Engineering}",
	title = "{The Finite Element Method: The basis}",
	url = "https://books.google.fr/books?id=x4BGAAAAYAAJ",
	year = "2000"
}

@article{doi10106312977681,
	author = "Palasantzas, G.",
	doi = "10.1063/1.2977681",
	eprint = "http://dx.doi.org/10.1063/1.2977681",
	journal = "Journal of Applied Physics",
	number = "5",
	pages = "053524",
	title = "{Quality factor due to roughness scattering of shear horizontal surface acoustic waves in nanoresonators}",
	url = "http://dx.doi.org/10.1063/1.2977681",
	volume = "104",
	year = "2008"
}

@inproceedings{495537,
	author = "Hode, J. M. and Desbois, J. and Difilie, P. and Solal, M. and Ventura, P.",
	booktitle = "{1995 IEEE Ultrasonics Symposium. Proceedings. An International Symposium}",
	doi = "10.1109/ULTSYM.1995.495537",
	issn = "1051-0117",
	keywords = "losses; optimisation; surface acoustic wave filters; surface acoustic wave transducers; tuning; SAW filters; SPUDT theory; SPUDT-based filters; constrained design problem; insertion loss; low loss filters; multitrack structures; resonant cavities; short-circuit reflection; single phase unidirectional transducer filters; triple transit suppression; weighting functions; Design optimization; Finite impulse response filter; Insertion loss; Reflection; Resonator filters; SAW filters; Surface acoustic waves; Transducers; Transversal filters; Ultrasonic imaging",
	month = "Nov",
	pages = "39--50 vol.1",
	title = "{SPUDT-based filters: design principles and optimization}",
	volume = "1",
	year = "1995"
}

@inproceedings{7728687,
	author = "Sagnard, M. and Laroche, T. and Ballandras, S.",
	booktitle = "{2016 IEEE International Ultrasonics Symposium (IUS)}",
	doi = "10.1109/ULTSYM.2016.7728687",
	keywords = "barium compounds; piezoelectric materials; surface acoustic wave sensors; temperature sensors; titanium compounds; Ba2TiSi2O8; high temperature sensors; piezoelectric material; surface acoustic waves properties; Couplings; Metals; Resonant frequency; Surface acoustic waves; Temperature; Temperature measurement; Temperature sensors",
	month = "Sept",
	pages = "1--4",
	title = "{Surface acoustic waves properties on Ba2TiSi2O8 for high temperature sensors}",
	year = "2016"
}

@article{doi10106311758317,
	author = "Ballandras, S. and Reinhardt, A. and Laude, V. and Soufyane, A. and Camou, S. and Daniau, W. and Pastureaud, T. and Steichen, W. and Lardat, R. and Solal, M. and Ventura, P.",
	doi = "10.1063/1.1758317",
	eprint = "http://dx.doi.org/10.1063/1.1758317",
	journal = "Journal of Applied Physics",
	number = "12",
	pages = "7731--7741",
	title = "{Simulations of surface acoustic wave devices built on stratified media using a mixed finite element/boundary integral formulation}",
	url = "http://dx.doi.org/10.1063/1.1758317",
	volume = "96",
	year = "2004"
}

@inproceedings{663039,
	author = "Buff, W. and Rusko, M. and Goroll, E. and Ehrenpfordt, J. and Vandahl, T.",
	booktitle = "{1997 IEEE Ultrasonics Symposium Proceedings. An International Symposium (Cat. No.97CH36118)}",
	doi = "10.1109/ULTSYM.1997.663039",
	issn = "1051-0117",
	keywords = "pressure sensors; surface acoustic wave resonators; surface acoustic wave sensors; telemetry; temperature sensors; 433 to 436 MHz; Y cut quartz diaphragm; difference frequency measurement; passive remote sensing; passive wireless telemetry systems; pressure sensor; simultaneous measurement; surface acoustic wave resonators; temperature sensor; universal SAW sensor device; wireless applications; Acoustic measurements; Acoustic sensors; Acoustic waves; Frequency; Pressure measurement; Sensor phenomena and characterization; Surface acoustic wave devices; Surface acoustic waves; Temperature sensors; Wireless sensor networks",
	month = "Oct",
	pages = "359--362 vol.1",
	title = "{Universal pressure and temperature SAW sensor for wireless applications}",
	volume = "1",
	year = "1997"
}

@inproceedings{5704036,
	author = "Sidek, F. and Ramli, N. A. and Nordin, A. N. and Voiculescu, I.",
	booktitle = "{2010 IEEE Student Conference on Research and Development (SCOReD)}",
	doi = "10.1109/SCORED.2010.5704036",
	keywords = "lithium compounds; surface acoustic wave resonators; COMSOL MultiphysicsTM; RF probe station; frequency 218 MHz; lithium niobate; network analyzer; noise figure -48.3 dB to -49.32 dB; surface acoustic wave resonators; Surface acoustic wave resonator; lithium niobate",
	month = "Dec",
	pages = "343--347",
	title = "{Design and fabrication of Surface Acoustic Wave resonators on Lithium Niobate}",
	year = "2010"
}

@inproceedings{583974,
	author = "Ventura, P. and Dufilie, P. and Boret, S.",
	booktitle = "{1996 IEEE Ultrasonics Symposium. Proceedings}",
	doi = "10.1109/ULTSYM.1996.583974",
	issn = "1051-0117",
	keywords = "acoustic wave reflection; acoustic wave velocity; band-pass filters; boundary-elements methods; etching; finite element analysis; interdigital transducers; surface acoustic wave filters; surface acoustic wave transducers; IDT; SAW bandpass filter; SiO2; Y rotated quartz; chemical etching; electrode shape; fabrication; liftoff; numerical FEM BEM model; overetching parameter; phase velocity; strip reflectivity; Band pass filters; Chemical processes; Electrodes; Etching; Fabrication; Narrowband; Numerical models; Reflectivity; Strips; Surface acoustic waves",
	month = "Nov",
	pages = "281--284 vol.1",
	title = "{The effect of the fabrication process in propagation and reflectivity in an IDT}",
	volume = "1",
	year = "1996"
}

@article{1347-4065-38-5S-3239,
	abstract = "The propagation characteristics of Rayleigh waves on a Y -rotated La 3 Ga 5 SiO 14 (langasite) substrate are evaluated with the use of newly obtained material constants. The calculated phase velocity, the power flow angle (PFA), the coupling electromechanical coefficient (K 2 ), the temperature coefficient of delay (TCD) and the diffraction coefficient (γ) are shown as contour maps. The revised numerical calculations were in much better agreement with the experimental results of the temperature characteristics on the langasite substrate with Euler angle (0°, 140°, φ). Moreover, the temperature characteristics as a function of the metal thickness were experimentally investigated. It was found that a thicker metal leads to a lower turnover temperature. Finally, an example of the frequency response of the transversal filter designed for IS95 is shown.",
	author = "Bungo, Akihiro and Jian, Chunyun and Yamaguchi, Kunio and Sawada, Yoshihisa and Uda, Satoshi and Pisarevsky, Yuri P.",
	journal = "Japanese Journal of Applied Physics",
	number = "5S",
	pages = "3239",
	title = "{Analysis of Surface Acoustic Wave Properties of the Rotated Y -cut Langasite Substrate}",
	url = "http://stacks.iop.org/1347-4065/38/i=5S/a=3239",
	volume = "38",
	year = "1999"
}

@article{4066928,
	author = "Bechmann, R. and Ballato, A. D. and Lukaszek, T. J.",
	doi = "10.1109/JRPROC.1962.288222",
	issn = "0096-8390",
	journal = "Proceedings of the IRE",
	keywords = "Bars; Crystals; Differential equations; Elasticity; Frequency measurement; Helium; Resonance; Stress; Temperature dependence; Thickness measurement",
	month = "Aug",
	number = "8",
	pages = "1812--1822",
	title = "{Higher-Order Temperature Coefficients of the Elastic Stiffinesses and Compliances of Alpha-Quartz}",
	volume = "50",
	year = "1962"
}

@inproceedings{662996,
	author = "Ventura, P. and Hode, J. M.",
	booktitle = "{1997 IEEE Ultrasonics Symposium Proceedings. An International Symposium (Cat. No.97CH36118)}",
	doi = "10.1109/ULTSYM.1997.662996",
	issn = "1051-0117",
	keywords = "boundary-elements methods; crystal orientation; finite element analysis; interdigital transducers; quartz; surface acoustic wave transducers; FEM/BEM numerical model; NSPUDT; P-matrix; SiO2; acoustic wave phase velocity; crystal orientation; electromechanical coupling coefficient; harmonic admittance; periodic IDT; phase difference; piezoelectric substrate; quartz; reflection center; static capacitance; strip reflectivity; transduction center; Acoustic reflection; Acoustic waves; Admittance; Capacitance; Electrodes; Numerical models; Phased arrays; Power harmonic filters; Reflectivity; Surface acoustic waves",
	month = "Oct",
	pages = "139--142 vol.1",
	title = "{A new accurate analysis of periodic IDTs built on unconventional orientation on quartz}",
	volume = "1",
	year = "1997"
}

@inproceedings{4319273,
	author = "Kozlovski, N. Y. and Malocha, D. C.",
	booktitle = "{2007 IEEE International Frequency Control Symposium Joint with the 21st European Frequency and Time Forum}",
	doi = "10.1109/FREQ.2007.4319273",
	issn = "2327-1914",
	keywords = "photonic band gap; surface acoustic wave devices; SAW Bragg reflector; SAW phononic reflector; a-periodic structures; coupling of modes model; crystal material; pseudo-periodic structures; surface acoustic waves; synchronous reflector; Acoustic propagation; Acoustic waves; Bandwidth; Buildings; Crystalline materials; Frequency dependence; Periodic structures; Predictive models; Semiconductor materials; Surface acoustic waves",
	month = "May",
	pages = "1229--1234",
	title = "{SAW Phononic Reflector Structures}",
	year = "2007"
}

@book{born_wolf_bhatia_clemmow_gabor_stokes_taylor_wayman_wilcock_1999,
	author = "Born, Max and Wolf, Emil and Bhatia, A. B. and Clemmow, P. C. and Gabor, D. and Stokes, A. R. and Taylor, A. M. and Wayman, P. A. and Wilcock, W. L.",
	doi = "10.1017/CBO9781139644181",
	edition = "7",
	place = "Cambridge",
	publisher = "Cambridge University Press",
	title = "{Principles of Optics: Electromagnetic Theory of Propagation, Interference and Diffraction of Light}",
	year = "1999"
}

@article{4472089,
	author = "Kawalec, A. and Pasternak, M.",
	doi = "10.1109/TIM.2008.917255",
	issn = "0018-9456",
	journal = "IEEE Transactions on Instrumentation and Measurement",
	keywords = "humidity measurement; humidity sensors; surface acoustic wave resonators; surface acoustic wave sensors; Nafion coating; SAW resonator; acidic vapors; dust; high-frequency surface acoustic wave sensor; humidity measurement; oxidizing agents; resonator harmonics; sulfur dioxide; Harmonic oscillators; relative humidity (RH) sensors; surface acoustic wave (SAW) gas sensors",
	month = "Sept",
	number = "9",
	pages = "2019--2023",
	title = "{A New High-Frequency Surface Acoustic Wave Sensor for Humidity Measurement}",
	volume = "57",
	year = "2008"
}

@article{915467,
	author = "Reindl, L. and Ruppel, C. C. W. and Kirmayr, A. and Stockhausen, N. and Hilhorst, M. A. and Balendonck, J.",
	doi = "10.1109/22.915467",
	issn = "0018-9480",
	journal = "IEEE Transactions on Microwave Theory and Techniques",
	keywords = "agriculture; condition monitoring; environmental engineering; moisture measurement; permittivity measurement; radiotelemetry; remote sensing; soil; surface acoustic wave delay lines; surface acoustic wave sensors; water; 434 MHz; ISM band; LiNbO3; RF request signal; RF response transmission; SAW reflective delay line; YZ cut LiNbO3; dual inline 16 package; electroacoustic transducers; external antenna; industrial-scientific-medical band; interrogation device; irrigation schemes; passive SAW water-content sensor; permittivity; radio link; radio-requestable SAW sensor; reflectors; remote measurement; sand-water mixture; sandy soil; surface acoustic wave delay line; wireless monitoring; Acoustic measurements; Acoustic sensors; Acoustic transducers; Acoustic waves; Delay lines; Permittivity; Radio frequency; Soil measurements; Surface acoustic wave devices; Surface acoustic waves",
	month = "Apr",
	number = "4",
	pages = "803--808",
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@book{Balanis,
	author = "Balanis, Constantine A.",
	month = feb,
	publisher = "John Wiley \& Sons",
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}