Wireless and chipless passive radiation sensors for high dose monitoring - Archive ouverte HAL
Communication Dans Un Congrès Année : 2015

Wireless and chipless passive radiation sensors for high dose monitoring

Résumé

The safety of nuclear infrastructures may involve the monitoring of many parameters in harsh environments (high radiation level, high temperature, high pressure, ..). If technological solutions exist for transducers part in such environments, the electronic part used in reader is not appropriate and still a challenging task. Well-known solutions to remove the electronic part from the harsh environment consist of connecting the transducer and the reader by long electrical wires or performing ex situ remote sensing. However wires may practically be difficult to implement while ex situ measurements are not compatible with on line monitoring. Wireless and passive sensors working in harsh environments could be an appropriate solution for the remote sensing of critical parameters. Passive sensors without electronics in the sensing unit are available (e.g., SAW sensors) but they suffer from short reading range (typically lower than 10 meters). In order to overcome this range limitation a new class of electromagnetic transducers was developed in the mid-2000s. The operating principle is based on the modification of the properties of high-frequency (>> 1 GHz) passive electromagnetic devices by the quantity to be measured. Based on this principle a wide range of sensing properties can be addressed and a large number of materials can be chosen. Moreover the use of high frequency allows reducing the size of the sensor elements (antenna, transducer) and enhancing the immunity to multipath. Several principles of RF transducers have been already validated by LAAS-CNRS (e;g; pressure [1], temperature [2], stress [3]) as well as radar-based solution for the wireless long-range sensors interrogation [4]. The sensor dosimeter exploit here the known property of Hydrogen-Pressure Dosimeters (HPD) for which the polymer material dehydrogenates under nuclear irradiation. The transducer principle is described in Figure 1. The irradiation will generate the out-gazing (hydrogen) of the polymer inside a micro-chamber. The resulting overpressure leads to the deflection of a silicon membrane which modifies the resonant frequency of the RF resonator. 9µm
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Dates et versions

hal-01237557 , version 1 (03-12-2015)

Identifiants

  • HAL Id : hal-01237557 , version 1

Citer

Émilie Debourg, Hervé Aubert, Patrick Pons, I Augustyniak, P Knapkiewicz, et al.. Wireless and chipless passive radiation sensors for high dose monitoring. International conference on Advancements in Nuclear Instrumentation Measurement Methods and their Applications (ANIMMA 2015), Apr 2015, Lisbonne, Portugal. 3p. ⟨hal-01237557⟩
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