DE4327375A1 - Method for selective acquisition of magnetic and dielectric susceptibility profiles - Google Patents

Abstract

The invention relates to a method for selective detection and acquisition of magnetic and dielectric susceptibility profiles, preferably for rapid analysis of both optically transparent and non-transparent liquid and gaseous examination or test objects. In this case, the method according to the invention is based on wide-band spectral imaging of the object parameters by the electromagnetic sample reaction of a gyrotropically and radiation-coupled one-port or two-port wave system within the micrometre and millimetre wave spectrum.

Description

Field of application of the invention

The invention relates to possible methods and their components for selective detection and detection of magnetic as well dielectric susceptibility profiles, preferably for Rapid analysis techniques of liquid and gaseous, both optically transparent as well as non-transparent test and Test objects.

Aim of the invention

The aim of the invention is to provide sensor systems for the Develop rapid analysis of liquids and gases, being ostensibly supports environmental laboratory analysis and is supported by Possibility of on-line, in-situ measurement should be added.

Characteristic of the known prior art

Currently known methods for the determination of dielectric and magnetic material parameters are based on the narrow band Evaluation of the cavity resonance of sample-coupled Cavity resonators of the micro and millimeter wave range. Because of the resonance qualities that can only be achieved to a limited extent as well as the specified spectral window are both that achievable spectral resolution is limited as well spectral broadband image of the system-defining parameters not possible. A basis for high-resolution procedures is not given with it.

Other known methods are based on the evaluation of the Reflection spectrum of quasi-coaxial waveguide probes, their Partial wave superimposition over the dielectric sample medium is set. Due to the dependency of the spectral sensitivity range of the superposition state back and forth waves from the probe geometry is one Possibility of broadband imaging of the gate parameters only given limited.

Finally, there are a number of mass spectrometers Processes characterized by high selectivity at high Mark sensitivity. These procedures require one preceding sample preparation and are for on-line use and in-situ measurements are not suitable.

State the nature of the invention

The invention is based, sensor systems for selective detection and detection of magnetic as well dielectric susceptibility profiles preferably for the Rapid analysis technology of liquid and gaseous, both optically transparent as well as non-transparent test objects to develop.

According to the invention the object is achieved in that the Target parameters over the amplitude spectrum of the system parameters of an object-linked electromagnetic reflection or Transmission system are mapped.

Here, the sensor object itself can be the source of the electromagnetic radiation, which in turn leads to Information carrier is and thus embodies the object signal. Under this condition, the task is to create a adapted detection of the emitted by the sensor object Realize own radiation field.

On the other hand, an interaction between object and electromagnetic radiation are such that the Radiation as a result of a sensor source itself or from Sources in a defined or definable environment of the Object. In this form, the task is to: Evaluate the transmission behavior of the sensor-coupled system.

While in the former case the emission of the natural radiation as evaluable observable can be used forms in second-mentioned case, the object coupling which is used for an evaluation of amplitude spectral transmission or reflection behavior necessary prerequisite for a recognition process.

The method according to the invention is based on the coupling of one a carrier made of gallium-gadolinium garnet Liquid phase epitaxy synthesized homogeneous and single crystal yttrium iron garnet substrate with a planar Excitation network that generating both right and counterclockwise circular radiation fields with a parallel to the Radial axis normal to the surface of the garnet substrate enables.

The reaction of the sample-dependent radiation space is evaluated with regard to the amplitude ( E - / H -) spectral as well as the phase spectral parameters via the scattering parameters to be assigned to the system gates of the gyrotropically coupled system, with E being the complex electric field vector and H the magnetic field vector.

Based on the evaluation of the circularly polarized partial fields the polarization state is analyzed both with regard to the main axis directions as well as the phase values of the resulting elliptically polarized field, which the Property of a defined correlation between sample parameters and polarization state, via the scattering parameters both in the case of a transmission as well as one Reflection system.  

The amplitude and phase spectra of the excitation quantities are here in a time-defined or in time-defined connectable sequence both spectrally continuous and generated on a case-by-case basis.

According to the invention the task is further characterized by the Superposition of the spectral image of the sample-dependent B-H Characteristic with the spectral mapping of the as Secondary discontinuity acting sample impedance, by means of this and the excitation space formed by the excitation circuit solved, where B is the magnetic induction and H represent the magnetic field strength of the bias field.

The method according to the invention is also based on the Illustration of the spectral dependence of the field signature of the gyrotropic and sample coupled system provided the Configuration of the sample space / volume as electromagnetic defined structural component of a closed or open, both symmetrical and asymmetrical transmission or Reflection system.

The ferroelectric solution is parallel to the ferromagnetic solution Equivalents can also be transferred to the process components.

Embodiment

The method according to the invention will be briefly based on an example are explained.

By means of a discontinuous magnetic circuit, the Magnetic flux both through the excitation component and over two fixed discontinuities is set static bias field to generate the magnetostatic Resonance of a gyrotropic solid-state resonator synthesized, the flow-determining discontinuities the Perform the functions of a resonator room or a sample room.

The alternating frequency output component of the up to Kittel's Resonance of pre-magnetized gyrotropic solid-state resonators (Yttrium-iron-garnet single crystal) is used by an oscillator controllable output amplitude spectrum generated and over a Triplate system coupled into the cavity.

The sample space in the magnetic circuit is called an electromagnetic two-port designed on the basis of a field coupling space, the Coupling component through a high-frequency radiation field defines controllable spectral characteristics and amplitude is formed. This sample room takes on the task of Mapping of the sample parameters in the form of the assigned Susceptibility profiles on the scattering parameters of the electromagnetic Two-port as well as on the B-H characteristics of the Resonator room.

The amplitude spectra of both the coupling field and the Excitation field are generated synchronously controllable and lead to Superposition of the scattering parameter spectrum and the magnetostatic precession type spectrum.

Claims (4)

1. A method for the selective detection of magnetic and dielectric Suszeptibilitätsprofile consisting of a coupled system electromagnetically excitable and vormagnetisierbarer monocrystalline gyrotroper solid resonators modifiable boundary and geometry as well as their Signaleinkopplungs- and -auskopplungsstrukturen including associated source systems both static bias magnetic fields as well as circularly polarized magnetic fields controllable amplitude spectrum, characterized characterized in that

• a surface-homogeneous and monocrystalline yttrium-iron-garnet substrate synthesized on a gallium-gadolinium-garnet carrier by means of liquid phase epitaxy is coupled to a planar excitation network;
• - The excitation network enables the generation of circularly polarized radiation fields of both right-hand circular and left-circular rotation with a radiation axis running parallel to the surface normal of the garnet substrate;
• - The reaction of the sample-dependent radiation space with respect to the amplitude ( E - / H -) spectral, with E as a complex electrical field vector and H as a complex magnetic field vector, and the phase spectral parameters to the scattering parameters assigned to the entrance gate is evaluated;
• - The reaction of the sample-dependent radiation space with respect to the polarization parameters to the scattering parameters assigned to the entrance gate is evaluated;
• - The response of the sample-dependent radiation space with respect to the amplitude, phase and polarization spectrum to the scattering parameters of a transmission system with the property of a susceptibility-determining transmission channel is evaluated;
• - The excitation or coupling network for the case of the evaluation of the electromagnetic field echo or the echo signature allows the reflectometric detection of the amplitude and phase spectral scattering parameter dependencies of the gyrotropically coupled electromagnetic system;
• - The amplitude and phase spectra of the radiation quantities excited according to time-definable or time-definable algorithms that can be coupled are synthesized both spectrally continuously and spectrally discrete;
• - The amplitude and phase spectra of the gate parameters can be mapped in a spectrally continuous and spectrally discrete manner according to time-definable or time-definable parameters;
• - The substance-dependent susceptibility profiles are mapped to the scattering parameter spectrum via the radiation field signature of the gyrotropically coupled one- or two-port system.

2. Method for the selective detection of magnetic and dielectric susceptibility profiles, consisting of a coupled system of electromagnetically excitable and magnetizable single-crystalline gyrotropic solid-state resonators with modifiable borders and geometry as well as their signal coupling and decoupling structures including assigned source systems of both static bias fields and circularly polarized magnetic alternating field controllable magnetic fields characterized in that

• - The ferromagnetic resonance of a yttrium-iron-garnet single crystal is generated by means of a bias system, the induced magnetic flux of which is determined both by a magnetic circuit discontinuity due to the excitation space and by a magnetic circuit discontinuity due to a sample space;
• - The magnetic susceptibility profile of the sample space is mapped via the ferromagnetic resonance or the amplitude spectrum of the gyrotropically coupled transmission system;
• - The magnetic susceptibility profile is mapped spectrally broadband over the continuous and time-defined control of both the static and alternating frequency excitation variables;
• - The spectral mapping of the sample-dependent BH characteristic, with B as the magnetic flux density and H as the magnetic field strength, is superimposed by the spectral mapping of the sample impedance.

3. The method according to claim 1 and 2, characterized in that

• - The sample volume is configured as an electromagnetically defined component of a closed or open transmission or reflection system;
• - The spectral dependence of the field signature of the gyrotropic and sample-coupled system is mapped.

4. The method according to claim 1 to 3, characterized in that the ferromagnetic components or interactions through their ferroelectric equivalents can be substituted.