. "Handel, Peter H." . . "339-342" . "978-0-7354-0432-8" . . . "RIV/00216305:26220/07:PU72110!RIV08-GA0-26220___" . . "P(GA102/05/2095), Z(MSM0021630503)" . "Quantum 1/f Noise in Bio-Chemical Resonant ZnO Sensors" . "3"^^ . . . . "1"^^ . "Quantum 1/f Noise in Bio-Chemical Resonant ZnO Sensors"@en . "USA" . "[21D090061858]" . "Tokyo" . . . "26220" . "Resonant sensors are based on the adsorption of a mass dm of the biological or chemical agent on the surface of the resonant element. Corresponding antibodies with efficiency k are deployed on the resonant face. The adsorption gets detected by a reduction y = dw/w=kdm/m of the resonant frequency w of the ZnO crystal. However, the later is also subject to fundamental quantum 1/f frequency fluctuations with spectrum Sy(f)."@cs . . "Kvantov\u00FD \u0161um typu 1/f v bio-chemick\u00FDch resonan\u010Dn\u00EDch senzorech na b\u00E1zi ZnO"@cs . "Kvantov\u00FD \u0161um typu 1/f v bio-chemick\u00FDch resonan\u010Dn\u00EDch senzorech na b\u00E1zi ZnO"@cs . "\u0160ikula, Josef" . . . . . "Truong, Amanda M." . "Noise and Fluctuations" . . "4"^^ . "Quantum 1/f Noise in Bio-Chemical Resonant ZnO Sensors" . . . "Resonant sensors are based on the adsorption of a mass dm of the biological or chemical agent on the surface of the resonant element. Corresponding antibodies with efficiency k are deployed on the resonant face. The adsorption gets detected by a reduction y = dw/w=kdm/m of the resonant frequency w of the ZnO crystal. However, the later is also subject to fundamental quantum 1/f frequency fluctuations with spectrum Sy(f)."@en . "Quantum 1/f Noise in Bio-Chemical Resonant ZnO Sensors"@en . . . "American Institute of Physics" . "RIV/00216305:26220/07:PU72110" . "Bio-sensors, Bio-detectors, Chemical sensors, Quantum 1/f noise, Piezoceramics, Phase noise"@en . . "Resonant sensors are based on the adsorption of a mass dm of the biological or chemical agent on the surface of the resonant element. Corresponding antibodies with efficiency k are deployed on the resonant face. The adsorption gets detected by a reduction y = dw/w=kdm/m of the resonant frequency w of the ZnO crystal. However, the later is also subject to fundamental quantum 1/f frequency fluctuations with spectrum Sy(f)." . "2007-09-09+02:00"^^ . "446180" .