Complex reflection coefficient
Reflectivity is the square of the magnitude of the Fresnel reflection coefficient, which is the ratio of the reflected to incident electric field; as such the reflection coefficient can be expressed as a complex number as determined by the Fresnel equations for a single layer, whereas the reflectance is always a positive real number.
The resulting complex reflection coefficient is expressed as a function of ... (p) and perpendicular (s)2 complex reflection coefficients and are given by. (3).
Find the expression of the reflection coefficient at any point along the transmission line, T(x). c. Calculate I (x = -d) in polar form. d. Find the VSWR on the transmission line. e. Find the input impedance Zin = Rin jXin seen at the source end of the transmission line. f. Use Zin seen at the source end of the transmission line to calculate I ...The method yields simultaneously the complex reflection coefficient of the first polarizer and its optical constants if it consists of only one mirror. The ...Reflection coefficient (Gamma) is, by definition, normalized to the characteristic impedance (Z 0) of the transmission line: Gamma = (Z L-Z 0) / (Z L +Z 0) where Z L is the load impedance or the impedance at the reference plane. Note that Gamma is generally complex. In this equation, R is the complex reflection factor of the sur- face under ... REFLECTION COEFFICIENT; ASPHALT, 6 = 45°. 37. Page 43. frequency — a trend not ...b,c, Complex reflection coefficients of the DBR (b) and the conductor (c) of a TE polarized mode (magnitude, black; phase, brown). d , Resulting TPP spectrum represented by the quantity A that ...Catalog Description: Review of static electric and magnetic fields and applications; Maxwell's equations; transmission lines; propagation and reflection of plane waves; introduction to guided waves, microwave networks, and radiation and antennas. Minilabs on statics, transmission lines, and waves. Explanation of cellphone antennas, WiFi communication, …The complex reflection coefficient at the input of the antenna is 0 0 Z Z Z Z input input + − Γ= where Zinput is the antenna’s complex input impedance and Z 0 is the source/system impedance. The power reflected is equal to the incident or forward power multiplied by the square of the magnitude of the complex input reflection coefficient = Γ2
Both the input reflection coefficient and the load reflection coefficient magnitudes will be the same, 0.33; however, their phases will differ depending on the line’s length. Phase of the input reflection coefficient. The input reflection coefficient angle will be decreased by twice the electrical length of the line . On Smith Chart ...Polar format is used to view the magnitude and of the reflection coefficient (. You can use Markers to display the following: Linear magnitude (in units) or log magnitude (in dB) Phase (in degrees) Displays only the real (resistive) portion of the measured complex data. Can show both positive and negative values. Y axis: Unitless.Prepare for exam with EXPERTs notes unit 5 transmission line - electromagnetic theory for aryabhatta knowledge university bihar, electronics and communication engineering-engineering-sem-2how measure the Reflection and refraction coefficient by using MATLAB the user will be asked to enter how many layers does he want and the MATLAB code will measure the Reflection and refraction coefficient. In addition, Follow 55 views (last 30 days) Show older comments. mohamed shafiq on 9 Nov 2015. Vote. 0. Link.The Fresnel reflection coefficient at the boundary of mediums with different optical properties is calculated as: ... When light is incident on the thin film surface, the complex reflection coefficient as a function of wavenumber, \(k\), can be expressed as a result of multiple reflections and transmissions:The reflection coefficient is where we have expressed the reflection coefficient as a complex quantity. and b is the propagation constant of a transmission line. The input impedance of a transmission line with arbitrary terminating impedance is zL = ZL Z0 0 = zL − 1 zL 1 = ∣ ∣ e j L = 2 f c r =
Return loss vs. reflection coefficient definition. Because the reflection coefficient Γ < 1, then the return loss will have a positive dB value. When you look at a graph of a return loss formula, the negative sign is often omitted and is sometimes used interchangeably with the S11 parameter. Formally, S11 is the negative of return loss and has ...), complex reflection coefficient between various tissue layer interfaces (K mn, the characters mn denote to layer number). Moreover, the distribution of the electrical field (E-field) inside multilayered tissue structure and specific absorption rate (SAR) with corresponding penetration depth (G) are analyzed in allAbstract: During the process of transmission line theory learning and RF circuit design, it is found that the reflection coefficient between passive complex impedances may be greater than 1 by using the typical reflection coefficient formula in the textbook.The Smith chart is a polar plot of the complex reflection coefficient (also called gamma and symbolized by Γ). Or, it is defined mathematically as the 1-port scattering parameter s or s11. A Smith chart is developed by examining the load where the impedance must be matched. Instead ofPolar format is used to view the magnitude and of the reflection coefficient (. You can use Markers to display the following: Linear magnitude (in units) or log magnitude (in dB) Phase (in degrees) Displays only the real (resistive) portion of the measured complex data. Can show both positive and negative values. Y axis: Unitless.Reflection Coefficients for an Air-to-Glass Interface Incidence angle, i Reflection coefficient, r 1.0.5 0-.5-1.0 r || r ┴ 0° 30° 60° 90° The two polarizations are indistinguishable at = 0° Total reflection at = 90° for both polarizations. n air 1 < n glass 1.5 Brewster’s angle Zero reflection for parallel r || =0! polarization at:
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the complex dielectric function, ε, which correlates the optical and electrical properties of materials and provides a sensitive estimate of surface conditions. As obtained by ellipsometry, ε is expressed in terms of the complex reflection coefficient, ρ, for a simple ambient/ film (f)/substrate (s) optical model: +ρ −ρAs the mismatch between the two impedances increase the reflection coefficient increases to a maximum magnitude of one. The table below shows how the varying complex reflection coefficient relates to SWR, return loss and transmitted loss. As can be seen a perfect match results in SWR equal to 1 and an infinite return loss.Specifically, the complex ultrasonic reflection coefficient can help calculate the coating-induced phase shift, which is found to linearly vary against the ultrasonic wave frequency. The slope of this linear function, depending on the structural porosity, enables simultaneous measurements of both the sound velocity and the thickness of the coating.Smith chart was invented by Phillip Smith in 1939 as a graph-based method of simplifying the complex math used to describe the characteristics of RF/microwave components, and solve a variety of RF problems. Smith chart is really just a plot of complex reflection coefficient overlaid with a normalized characteristic impedance (1 ohm) and/or ...In this study, a pressurized, water-filled impedance tube (WFIT) was developed to measure the reflection coefficients of sound-absorbing materials under various hydrostatic pressures. The developed WFIT was calibrated using a two-microphone, three-parameter calibration method (3PCM). The accuracy and repeatability of the measured reflection coefficients for the water–air interface in the ...The reflection coefficient at any point is given by: (1.64) Using equation equation 1.61, reflection coefficients for voltage and current are: (1.65) Equation 1.64 shows reflection coefficient is a function of location and the reflection coefficient at the load. Equation 1.63 shows the load reflection coefficient is dependent on the load ...
Figure 2. The Complex Reflection Coefficient must lie somewhere within the unit circle. In Figure 2, we are plotting the set of all values for the complex reflection coefficient, along the real and imaginary axis. The center of the Smith Chart is the point where the reflection coefficient is zero.In telecommunications and transmission line theory, the reflection coefficient is the ratio of the complex amplitude of the reflected wave to that of the incident wave. The voltage and current at any point along a transmission line can always be resolved into forward and reflected traveling waves given a specified reference impedance Z0.Mar 1, 2015 · 1 Answer. Amplitude coefficients are complex. The reflection and transmission coefficients must account for both amplitude change and phase change. In order to account for both of these, complex coefficients are required. These are the most general, and are needed for a complete description. In some special (and simple) cases, the phase shift ... The complex electric field wave reflection coefficient at the boundary between two non-magnetic media is derived from. Fresnel equations and is given for ...Apr 3, 2023 · Experimentally, we create time slits by inducing an ultrafast change in the complex reflection coefficient of a time-varying mirror 12 made of a 40 nm thin film of ITO, with an ENZ frequency of ... Prepare for exam with EXPERTs notes unit 5 transmission line - electromagnetic theory for aryabhatta knowledge university bihar, electronics and communication engineering-engineering-sem-2Abstract: During the process of transmission line theory learning and RF circuit design, it is found that the reflection coefficient between passive complex impedances may be greater than 1 by using the typical reflection coefficient formula in the textbook.The Smith chart is a polar plot of the complex reflection coefficient (also called gamma and symbolized by Γ). Or, it is defined mathematically as the 1-port scattering parameter s or s 11. A Smith chart is developed by examining the load where the impedance must be matched.Reflection and Transmission Coefficients. • Brewster's Angle. • Total Internal Reflection (TIR). • Evanescent Waves. • The Complex Refractive Index. • ...
Nov 26, 2018 · Smith chart was invented by Phillip Smith in 1939 as a graph-based method of simplifying the complex math used to describe the characteristics of RF/microwave components, and solve a variety of RF problems. Smith chart is really just a plot of complex reflection coefficient overlaid with a normalized characteristic impedance (1 ohm) and/or ...
In telecommunications and transmission line theory, the reflection coefficient is the ratio of the complex amplitude of the reflected wave to that of the incident wave. The voltage and current at any point along a transmission line can always be resolved into forward and reflected traveling waves given a specified reference impedance Z 0 . Working with Complex Characteristic Impedance ... For example, "traveling-wave reflection coefficients can be measured by observing the peaks and valleys of the electric fields of the standing wave created by the beating of incident and reflected traveling waves in a slotted-line experiment" [2-3]. The through-reflect-line (TRL) vector ...Spectral factorization is shown to restore the phase of an incoherent layered sediment reflection coefficient so that its Fourier transform is the minimum phase impulse response at each angle. The method requires the reflection coefficient to be known over a range of frequencies and the grazing angles in question to be above critical. It is developed here …model discrimination. However, the complex reflection coefficient as a function of frequency and angle provides a third data set. Reflection coefficient measurements are ideal for the following reasons: 1. The measurements are non-invasive and relatively easy to measure over a wide range of frequencies. 2. The reflection coefficient is typically denoted by the symbol "Γ" (gamma) and is a complex number. It is defined as the ratio of the reflected voltage wave (Vr) to the incident voltage wave (Vi) at the interface: Γ = (Vr / Vi) This reflection coefficient can also be expressed in terms of the load impedance (Z_L) and the source impedance (Z_S ...values. Especially, the reflection coefficient, originally a com-plex number, was treated as a real number, neglecting the phase information. Therefore, there was a need for enhanced analytical techniques to fully utilize the complex nature of the reflection coefficient and improve the accuracy of the resis-tance measurements.Total internal reflection has a number of practical applications; notably, it is the enabling principle of fiber optics. Consider the situation shown in Figure 5.11.1: Figure 5.11.1: A uniform plane wave obliquely incident on the planar boundary between two semi-infinite material regions.The reflection coefficient, Γ, is a complex parameter that depends directly on the properties of the material discontinuities. Using certain microwave circuitry, the phase and/or the magnitude of the reflection coefficient can be measured. According to the measured parameter, there are three types of images, and thus realizations of the near …As an alternative measurement technique for the complex reflection coefficient Γof a device under test (DUT), the six-port reflectometer was proposed by Engen and Hoer in the 1970s [3], [4]. The six-port reflectometer comprises a signal source port, a measurement port, and four sidearm ports to which power detectorsThe complex propagation constant plays a crucial role in Stratton's expressions for the reflection coefficient. It should be noted that in geophysical literature, the meaning of symbols α and β is sometimes switched, so that the former is the attenuation factor (e.g., Knight, 2001, p. 231).
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Reflection coefficient for Voltage Wave is not zero. SDRookie said: I think the conjugate matching make sure that there is no power reflect back to source generator so the Γ should be 0. Reflection coefficient for Power Wave is zero. Port Impedance=R+j*X. (1) Load=R+j*X. (2) Load=R-j*X.Complex coefficient of reflection Contents 1 Problem 3.6a 1.1 Background 1.2 Solution 2 Problem 3.6b 2.1 Solution 3 Problem 3.6c 3.1 Solution 4 Continue reading 5 Also in this chapter 6 External links Problem 3.6a Using the expression to represent a plane wave incident on a plane interface, show that a complex coefficient of reflection ,even when \(Z\) is complex. That is, power-waves have been developed such as zero power-wave reflection coefficient corresponds to maximum power transfer. Most RF circuit solvers use the power-waves definition (such as ADS, ANSYS Circuit). scikit-rf also uses the power-waves definition by default. Caveats¶ Reflection Coefficient and Smith Chart¶ constant. In this range dielectric constant measurement using the reflection coefficient will be more sensitive and hence precise. Conversely, for high dielectric constants (for example between 70 and 90) there will be little change of the reflection coefficient and the measurement will have more uncertainty. Figure 6.The ultrasonic pulse-echo method is widely adopted in measuring coating thickness via parameter inversion of the reflection coefficient. However, the ultrasonic application to thermal barrier ...This can be conveniently taken into account by defining a complex refractive index, n^ = n + iκ n ^ = n + i κ. Here, the real part n n is the refractive index and indicates the phase velocity, while the imaginary part κ κ is called the extinction coefficient — although κ κ can also refer to the mass attenuation coefficient — and ...$\begingroup$ I turns out that for any real, negative number written as an amplitude multiplying a complex argument, the argument will be $\pi$. In the complex plane, numbers on the real axis have either an argument of 0 or $\pi$. Try it! $\endgroup$ –However it is easy to show using the interface Fresnel reflection coefficient expressions above that at θ=90° glancing angle of incidence, the reflection coefficients rs and rp are completely independent of the complex N1 and N2 values and, with the sign convention used above it is found that rs(θ=90°) = -1 and rp(θ=90°) = +1 and also ts ... Normal Reflection Coefficient. The reflectivity of light from a surface depends upon the angle of incidence and upon the plane of polarization of the light. The general expression for reflectivity is derivable from Fresnel's Equations. For purposes such as the calculation of reflection losses from optical instruments, it is usually sufficient ...Specifically, the complex ultrasonic reflection coefficient can help calculate the coating-induced phase shift, which is found to linearly vary against the ultrasonic wave frequency. The slope of this linear function, depending on the structural porosity, enables simultaneous measurements of both the sound velocity and the thickness of the coating.Working with Complex Characteristic Impedance ... For example, "traveling-wave reflection coefficients can be measured by observing the peaks and valleys of the electric fields of the standing wave created by the beating of incident and reflected traveling waves in a slotted-line experiment" [2-3]. The through-reflect-line (TRL) vector ...Catalog Description: Review of static electric and magnetic fields and applications; Maxwell's equations; transmission lines; propagation and reflection of plane waves; introduction to guided waves, microwave networks, and radiation and antennas. Minilabs on statics, transmission lines, and waves. Explanation of cellphone antennas, WiFi communication, … ….
D∆S of the complex reflection coefficient (or the complex transmission coefficient for configurations 2 and 2) measurement using the linearization method and the formula: where J is a function derivative with respect to the measured variable (Jacobian); asterisk (*) refers to acomplex reflection coefficient and a reference reflection . coefficient . The reference reflection coefficient is from a . fully cured tire made from the same material as the tire . Continuous monitoring of the interaction takes place to obtain the complex reflection coefficient along with continuIn electrical engineering, the reflection coefficient is a parameter that defines how much of the electromagnetic wave is reflected due to the impedance discontinuity in a transmission path. This online reflection coefficient calculator calculates the reflection coefficient (Γ) by entering the value of the characteristic impedance Z o (in ohms ...b,c, Complex reflection coefficients of the DBR (b) and the conductor (c) of a TE polarized mode (magnitude, black; phase, brown). d , Resulting TPP spectrum represented by the quantity A that ...The complex amplitude coefficients for reflection and transmission are usually represented by lower case r and t (whereas the power coefficients are capitalized). As before, we are assuming the magnetic permeability, µ of both media to be equal to the permeability of free space µ o as is essentially true of all dielectrics at optical frequencies. A reflection coefficient with a magnitude of zero is a perfect match, a value of one is perfect reflection. The symbol for reflection coefficient is uppercase Greek letter gamma (). Note that the reflection coefficient is a complex value, so it includes an angle. Unlike VSWR, the reflection coefficient can distinguish between short and open ...If the reference medium 1 is vacuum, then the refractive index of medium 2 is considered with respect to vacuum.It is simply represented as n 2 and is called the absolute refractive index of medium 2.. The absolute refractive index n of an optical medium is defined as the ratio of the speed of light in vacuum, c = 299 792 458 m/s, and the phase velocity v of …Reflection Coefficient to Impedance Converter ; Zo Ω ; Gamma (MAG ANG) Deg, Zs (Rs+jXs) Ω jΩ. S11 dB ; Zs (Rs+jXs) Ω jΩ, Gamma (MAG ANG) Deg S11 dB ... Complex reflection coefficient, into the liquids and the reflection coefficient is measured and used to determine the permittivity. Furthermore, for some measurements, it may not be possible to cut out the sample of ... The complex coefficient data Kc referenced <RAC0607-0019_1_4E> Rohde & Schwarz < Measurement of Material Dielectric Properties> <RAC0607-0019_1_4E> …, Video projection is popular both at home and at the office. For conference room presentations and home theater fun, high reflectivity projection screens provide best viewing results, but can be expensive. Fortunately, you can create your ow..., For each of the 56 samples, we knew the sample temperature during microwave measurements, mechanical resistance to a 20% mechanical strain, complex permittivity from 0.2 to 6 GHz, complex reflection coefficient from 3.95 to 5.85 GHz for parallel and perpendicular configurations, and scalar reflection coefficient at 10, 16 and …, The reflection of a plane wave can be perfectly described using a reflection coefficient, but this is not the whole story in a complex structure like a printed circuit board. Designers need to use input impedance and S-parameters to describe reflections in transmission lines., The reflection coefficient is measured using a vector network analyzer. The VNA with a probe system is first calibrated so that the reflection coefficient measurements are referenced to the probe aperture plane. This can be done using two methods. The first method uses reference liquids for direct calibration at the open end of the probe. It is, This calculator uses the following formulas for converting the values between the VSWR, return loss, reflection coefficient, and mismatch loss. If VSWR is known, then the reflection coefficient (Γ), return loss (RL), and mismatch loss (ML) is calculated by using following formulas. If the reflection coefficient (Γ) is known, then the VSWR ... , t) and the most part is reflected back (σ r). The ratio of the reflected to the incident tensions is the complex reflection coefficient: (1) where r and θ are the magnitude and phase, respectively. The magnitude and phase are related with the amplitude change and the phase shift of the shear wave in the reflection process., The transmission coefficients monotonically decrease to 0 at θ i = 90 o. Figure \(\PageIndex{3}\) shows the Fresnel coefficients when the wave is incident from glass to air. The critical angle is θ i,crit = 41.8 o as derived earlier. At the angle of total internal reflection the absolute values of the reflection coefficients are identical to 1., The complex propagation constant plays a crucial role in Stratton's expressions for the reflection coefficient. It should be noted that in geophysical literature, the meaning of symbols α and β is sometimes switched, so that the former is the attenuation factor (e.g., Knight, 2001, p. 231)., In mathematics, a complex reflection group is a finite group acting on a finite-dimensional complex vector space that is generated by complex reflections: non-trivial elements that fix a complex hyperplane pointwise.. Complex reflection groups arise in the study of the invariant theory of polynomial rings.In the mid-20th century, they were completely classified in work of Shephard and Todd., The main equation that defines the strength of a reflected signal is the reflection coefficient equation. For a traveling signal reaching a load input impedance, the reflection coefficient at the load’s input is: This typical transmission line arrangement has a reflection coefficient defined at the load end of the component., Abstract: During the process of transmission line theory learning and RF circuit design, it is found that the reflection coefficient between passive complex impedances may be greater than 1 by using the typical reflection coefficient formula in the textbook., In telecommunications and transmission line theory, the reflection coefficient is the ratio of the complex amplitude of the reflected wave to that of the incident wave. The voltage and current at any point along a transmission line can always be resolved into forward and reflected traveling waves given a specified reference impedance Z 0 ., Complex conjugate matching is used when maximum power transfer is required, namely ... so the reflection coefficient is the same (except for sign), no matter from which direction the wave approaches the boundary. There is also a current reflection coefficient, which is the negative of the voltage reflection coefficient. If the wave encounters an open at the …, It can be shown that above the critical angle the reflection coefficients are complex numbers with modulus 1: |r s | = |r p | = 1. This implies that the reflected …, However, the exact form of the reflection coefficient is very complex and it is difficult to account for inversion. Therefore, a large number of approximate equations have been derived and applied. Thomsen [ 8 ] derived an approximate expression for the P-wave reflection coefficient based on a linear approximation of the exact VTI reflection ..., coefficient. You will recall from class that the input reflection coefficient to a transmission line of physical length l, Г Ü á, is given in terms of the load reflection coefficient Г Å by the expression Г Ü áГ Å A ? Ý 6 ß 1 ; This indicates that on the complex reflection coefficient plane (the Smith Chart), the point representing, The complex permittivity, E*, of each material was measured with an open-ended coaxial sensor in conjunction with an automatic network analyser, as described by Grant et a1 (1989). The system was calibrated against reference measurements of complex reflection coefficient on air, a short circuiting pad and a reference liquid of, Oct 10, 2022 · The nth echo S n L, which reflects at the interface between the substrate and liquid, was obtained from multiple-reflection data with a network analyzer (Agilent Technologies, E5071C). The nth echo S n A at the interface between the substrate and air was also obtained. The complex reflection coefficient Γ * is given by , coefficient = gammaout(s_params,z0,zs) calculates the output reflection coefficient of a two-port network. z0 is the reference impedance Z 0; its default value is 50 ohms. zs is the source impedance Z s; its default value is also 50 ohms. coefficient is an M-element complex vector., The complex reflection coefficient at the input of the antenna is 0 0 Z Z Z Z input input + − Γ= where Zinput is the antenna’s complex input impedance and Z 0 is the source/system impedance. The power reflected is equal to the incident or forward power multiplied by the square of the magnitude of the complex input reflection coefficient = Γ2, Return loss vs. reflection coefficient definition. Because the reflection coefficient Γ < 1, then the return loss will have a positive dB value. When you look at a graph of a return loss formula, the negative sign is often omitted and is sometimes used interchangeably with the S11 parameter. Formally, S11 is the negative of return loss and …, Figure 2. a: Complex reflection coefficient trajectories with different mobility values for the graphene sheet case. Full 2π phase modulation does not occur without the avoided crossing with ..., The complex amplitude coefficients for reflection and transmission are usually represented by lower case r and t (whereas the power coefficients are capitalized). As before, we are assuming the magnetic permeability, …, The phase is the argument of the complex reflection coefficient. Whenever one defines a phase, it is relative to some choice of reference — in particular, the phase of the mode profile, which for a planewave is chosen so that the electric field is purely real and its sign follows a typical convention used for Fresnel coefficients., The complex amplitude coefficients for reflection and transmission are usually represented by lower case r and t (whereas the power coefficients are capitalized). As before, we are assuming the magnetic permeability, µ of both media to be equal to the permeability of free space µ o as is essentially true of all dielectrics at optical frequencies. , Return loss vs. reflection coefficient definition. Because the reflection coefficient Γ < 1, then the return loss will have a positive dB value. When you look at a graph of a return loss formula, the negative sign is often omitted and is sometimes used interchangeably with the S11 parameter. Formally, S11 is the negative of return loss and has ..., A generalized (complex) reflection coefficient is introduced to describe backscattered energy from a discrete interval instead of an isolated interface. The main goal of this paper is to quantify thin-bed scattering in order to provide a more complete representation of seismic reflections in realistic geological settings. It is our hope that this …, In telecommunications and transmission line theory, the reflection coefficient is the ratio of the complex amplitude of the reflected wave to that of the incident wave. The voltage and current at any point along a transmission line can always be resolved into forward and reflected traveling waves given a specified reference impedance Z 0 ., The complex amplitude coefficients for reflection and transmission are usually represented by lower case r and t (whereas the power coefficients are capitalized). As before, we are assuming the magnetic permeability, µ of both media to be equal to the permeability of free space µ o as is essentially true of all dielectrics at optical frequencies., At the load position, where z = 0, the reflection coefficient is equal to L as defined by (14.5.11). Fig 14.6.1 (a)Transmission line conventions. (b) Reflection coefficient dependence on z in the complex plane. Like the impedance, the reflection coefficient is a function of z. Unlike the impedance, has an easily pictured z dependence., At the load position, where z = 0, the reflection coefficient is equal to L as defined by (14.5.11). Fig 14.6.1 (a)Transmission line conventions. (b) Reflection coefficient dependence on z in the complex plane. Like the impedance, the reflection coefficient is a function of z. Unlike the impedance, has an easily pictured z dependence., be achieved at some specific optimum (complex) reflection coefficient (Γ opt). So in addition to F min, two of the other parameters magnitude and angleΓ opt, with the fourth parameter being the equivalent noise resistance n It should also bR e noted that there are other noise parameter formulations in addition to those listed in (Eq 4).