Analysis software(wave) - List of Manufacturers, Suppliers, Companies and Products

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
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Analysis software Product List

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3D Microwave and Optical Wave Analysis Software / μ-WAVE

3D Microwave and Optical Wave Analysis Software / μ-WAVE

FDTD method (Finite-Difference Time-Domain), equipped with orthogonal grid pre-post processing, rapidly analyzes electromagnetic fields in the time domain!

The optical wave and microwave analysis software μ-WAVE is a highly practical electromagnetic wave simulation tool. μ-WAVE rapidly analyzes electromagnetic field distribution in the time domain. 【Features】 - Adopts FDTD and CIP methods for analysis - High-speed computation for problems with 10 million cells (when using FDTD) - Realizes infinite boundaries without PML (when using CIP) - Time steps determined by Courant condition do not need to be changed even if small cells are partially present (significant reduction in computation time) (CIP) - Evaluates wideband absorption and scattering characteristics in a single calculation - Comes standard with a dedicated GUI designed for ease of use - Priced from 3.15 million yen *For more details, please request documentation or view the PDF data available for download.

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3D Electromagnetic Wave Analysis Software (Frequency Response) WAVEjω

3D Electromagnetic Wave Analysis Software (Frequency Response) WAVEjω

3D Electromagnetic Wave Frequency Response Analysis Software (High Frequency) PHOTO-WAVE jω

3D high-frequency electromagnetic field analysis software using the finite element method (high-frequency electromagnetic field simulator) with a module for frequency response analysis. ■□■Features■□■ ■Since it is integrated with the PHOTO series pre- and post-processing, data creation, analysis, and result processing can be performed as a series of operations. ■It is integrated with other PHOTO series modules, allowing for easy coupled analysis, such as deriving temperature distribution from heat generation obtained through electromagnetic field analysis. ■A revolutionary speedup has been achieved by combining the edge element method and ICCG method. Therefore, 3D electromagnetic wave analysis (high-frequency analysis) can be performed on a personal computer. ■Since it uses the finite element method, it is suitable for analyzing closed regions, especially those involving multiple media. ■When coupled with the thermal conduction analysis software PHOTO-THERMO, it is possible to calculate temperature distribution from heat generation within dielectrics.

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[Case Study] Analysis of the Input Impedance of a Dipole Antenna

[Case Study] Analysis of the Input Impedance of a Dipole Antenna

Set impedance boundaries at the model boundary! Here are examples compared with the results of the moment method.

We will introduce a case study analyzing the input impedance of a dipole antenna using the electromagnetic wave analysis software "PHOTO-WAVEjω." The antenna has a diameter of 1mm, a length of 60.5mm, and a gap of 0.5mm. An impedance boundary was set at the model boundary. The antenna was treated as a perfect conductor. 【Case Overview】 ■ Software Used: PHOTO-WAVEjω ■ Analysis Conditions - An impedance boundary was set at the model boundary - The antenna was treated as a perfect conductor *For more details, please refer to the related links or feel free to contact us.

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Earthquake waveform data editing and analysis software 'ArkWave'

Earthquake waveform data editing and analysis software 'ArkWave'

Editing and analyzing seismic waveform data made easy! Also usable as a tool for creating reports!

"ArkWave" is an editing and analysis software that allows for easy processing (editing) and analysis of seismic waveform data, and can also generate waveform data such as compatible seismic waves. It has the capability to automatically read files without specifying the seismic waveform file format. Additionally, it can be used as a format conversion program for seismic waveform files. It is suitable for pre- and post-processing programs of the three-dimensional dynamic response analysis programs TDAP III and FDAP III, and can also be used as a tool for creating reports. 【Features】 ■ Capable of processing up to 524,288 seismic waveform points ■ Easily generates seismic waveform data in a conversational format ■ Allows for basic editing, such as extracting specific sections of seismic waveform data, and simple waveform processing like integration ■ Analysis results of seismic waveform data can be instantly viewed on the screen *For more details, please refer to the PDF materials or feel free to contact us.

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[Case Study] Analysis using automatic load condition setting function (TE wave, TM wave)

[Case Study] Analysis using automatic load condition setting function (TE wave, TM wave)

Specify the set of nodes located on the same plane! Calculate the electric field at each node and set it as the load condition.

In "PHOTO-WAVEjω" prior to Ver8.0, it was necessary to set the electric field (3 components) at nodes or the current density (3 components) at elements as load conditions. Since Ver8.2, a feature has been added to automatically set these load conditions. Users can specify a set of nodes that are on the same plane, and by simply entering a few parameters, the program calculates the electric field at each node and sets it as the load condition. [Issues] ■ In "PHOTO-WAVEjω" prior to Ver8.0, it was necessary to set the electric field at nodes or the current density at elements as load conditions. ■ When setting the electric field in a rectangular waveguide, it was necessary to set each electric field component from the coordinate values of each node, which was a cumbersome task for users. *For more details, please refer to the related links or feel free to contact us.

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Waveform analysis software "MTB-OWM"

Waveform analysis software "MTB-OWM"

Easy and intuitive operation! Software that allows automatic waveform analysis.

The "MTB-OWM type waveform analysis software" allows for the extraction of various parameters from waveform data obtained with an oscilloscope, equivalent to or beyond what the measuring instrument can handle, using only a PC. This enables waveform analysis without occupying the oscilloscope. Additionally, with features such as ultra-long memory support for waveforms, search functions, and automated report generation, it significantly enhances measurement and analysis capabilities, contributing to substantial labor savings. 【Features】 ○ Waveform display & cursor function ○ Waveform analysis function ○ Waveform computation function (optional) ○ Long memory waveform display function & search function (optional) ○ Automated report generation for waveform analysis (optional) For more details, please contact us or download the catalog.

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[Analysis Case] Electromagnetic Field Analysis of E-Plane T-Junction Waveguide

[Analysis Case] Electromagnetic Field Analysis of E-Plane T-Junction Waveguide

Using the analysis module "PHOTO-WAVEjω"! The scattering matrix was obtained from the analysis results.

We conducted an analysis using the finite element method to determine the distribution of electromagnetic waves input from each port in a T-shaped waveguide used for signal processing in radar and other applications. Three ports were set up in the E-plane T-junction waveguide. Due to symmetry, a 1/2 model was created, with natural boundary conditions on the XY plane and symmetric boundary conditions on the other sides. As a result, the absolute values of S31 and S13 calculated were 0.644 and 0.631, respectively, with an error of 2.0%. [Case Summary] ■ Analysis Module: PHOTO-WAVEjω ■ Analysis Results - The absolute values of S31 and S13 calculated were 0.644 and 0.631, respectively, with an error of 2.0%. *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Scattering Analysis of Plane Waves by a Dielectric Sphere

[Analysis Case] Scattering Analysis of Plane Waves by a Dielectric Sphere

Using the software "PHOTO-WAVEjω"! Analyzing the scattered waves after hitting a sphere using the finite element method.

This is an example of estimating the scattered wave in the far field when a plane wave is incident on a scattering body, using the finite element method. A plane wave polarized in the X-axis direction is incident in the Z-axis direction, and the scattered wave after it hits this sphere is analyzed using the finite element method. Next, based on those results, the scattered wave in the far field is estimated using two different methods, and the results are compared. The shape is modeled in full. 【Software Used】 ■PHOTO-WAVEjω *For more details, please refer to the related links or feel free to contact us.

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Vibration and Noise Analysis Software "WAVELET"

Vibration and Noise Analysis Software "WAVELET"

Sound and vibration can be clearly seen! Our uniquely developed analysis method allows for the identification of specific frequencies and sound pressure levels, converting them into "color images on a time axis." This application also enables AI assessment.

The characteristics of sound and vibration that were not visible in conventional waveform data are converted into a "color image on the time axis that shows specific frequencies and sound pressure levels" using our unique analysis method. This technique enables spectral analysis of sudden and non-stationary acoustic and vibrational changes over time, making it useful for phenomenon analysis and research in various fields. Additionally, beyond visual judgment, combining this with our AI image recognition system allows for automatic judgment, which was difficult with FFT analysis and octave analysis. 【Measurement Examples】 Product shipment impact sound inspection (cracks, fractures) Impact sound inspection of concrete and exterior walls in infrastructure Noise analysis due to aging deterioration of gearboxes Impact sound analysis of golf balls for research and development Crack detection in semiconductors Medical and physiological applications (ECG, fracture detection), etc. 【Features】 ■ Visualization of sound and vibration ■ Possible visual judgment ■ Automatic judgment possible in combination with AI image recognition system ■ Usable for analysis and research in various fields *For more details, please refer to the PDF document or feel free to contact us.

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[Analysis Case] Electromagnetic Field Analysis of Hollow Resonators

[Analysis Case] Electromagnetic Field Analysis of Hollow Resonators

Perform eigenvalue analysis using a rectangular cavity resonator model to determine the resonance frequency and resonance modes (patterns of electric and magnetic fields).

Electromagnetic field analysis was conducted to determine the resonant frequency and resonant modes of a cavity resonator. In this case, a rectangular cavity resonator was modeled for eigenvalue analysis, and the resonant frequency and resonant modes (patterns of electric and magnetic fields) were obtained. 【Case Overview】 ■ Software Used: PHOTO-WAVEjω ■ Analysis Results ・In Mode 1, the error compared to the theoretical value was only 0.104%.

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[Case Study] Electromagnetic Wave Analysis of Right-Angle Corner in H-Plane Waveguide

[Case Study] Electromagnetic Wave Analysis of Right-Angle Corner in H-Plane Waveguide

Analysis was also conducted in the absence of a metal post! The analysis results at a frequency of 10.13 [GHz] are shown.

We will introduce a case study analyzing the frequency dependence of the reflection rate by placing metal posts that suppress the reflection of electromagnetic waves at 10 GHz. Impedance boundary conditions were set at the exit. The walls of the waveguide and the metal posts were treated as perfect conductors, and the input was provided as the TE10 electric field [V/m]. Additionally, an analysis was conducted for the case without metal posts for comparison. 【Case Overview】 ■ Software Used: PHOTO-WAVEjω ■ Analysis Conditions - Waveguide: WRJ-10 (22.9mm × 10.2mm) - The walls of the waveguide and the metal posts are perfect conductors - The input was provided as the TE10 electric field [V/m] - Impedance boundary conditions were set at the exit *For more details, please refer to the related links or feel free to contact us.

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[Analysis Case] Photonic Crystal Optical Waveguide (Electromagnetic Field Analysis)

[Analysis Case] Photonic Crystal Optical Waveguide (Electromagnetic Field Analysis)

Conducting electromagnetic wave analysis using the finite element method! Introducing a case study considering an L-shaped optical waveguide.

Photonic crystals are structures that can control light by periodically arranging multiple dielectrics. Electromagnetic wave analysis was conducted using the finite element method. The optical waveguide consists of periodically arranged dielectric rods, and light passes through the areas without dielectric rods. The radius of the rods, r, and the period of the rods, a, are set as r = 0.18a, and the electric field component parallel to the dielectric rods was input. 【Case Overview】 ■ Software Used: PHOTO-WAVEjω ■ Analysis Conditions - The radius of the rods, r, and the period of the rods, a, are set as r = 0.18a (Wavelength λ: 1.55μm, Refractive index n: 3.4) - Impedance boundary conditions are set on the sides - The electric field component parallel to the dielectric rods was input *For more details, please refer to the related links or feel free to contact us.

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Analysis Case: Yagi-Uda Antenna Analysis

Analysis Case: Yagi-Uda Antenna Analysis

Estimate electromagnetic waves from a distance using two different methods and compare the results! The shape was modeled in full.

The Yagi-Uda antenna is a directional antenna composed of a waveguide made up of multiple short elements, a long element reflector, and a feed mechanism positioned between them. The electromagnetic waves radiated from the feed mechanism are analyzed using the finite element method, and based on the results, far-field plane waves are estimated. The feed mechanism radiates electromagnetic waves polarized in the Z-axis direction, and the behavior of the electromagnetic waves in the air region surrounding the entire antenna is analyzed using the finite element method. Next, based on those results, the electromagnetic waves in the far field are estimated using two different methods, and the results are compared. The shape is modeled as a full model. [Software Used] ■ PHOTO-WAVEjω *For more details, please refer to the related links or feel free to contact us.

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Analysis software for CVD equipment 'Particle-PLUS'

Analysis software for CVD equipment 'Particle-PLUS'

"Particle-PLUS" is a plasma and rarefied fluid analysis software that excels in 2-frequency CCP analysis using the particle method.

"Particle-PLUS" is a simulation software suitable for research and development of devices and equipment using plasma, compatible with CCP. - Excels in simulating low-pressure gases where fluid models are difficult to compute. - Advanced physical model analysis including CCP and external circuit models. - Supports 2D (two-dimensional) and 3D (three-dimensional) analysis, efficiently handling complex models. - As a strength of our in-house developed software, it not only includes standard functions for CCP and magnetron sputtering calculations but also allows customization to fit customer equipment. ◆ Supports various cases ◆ - Magnetron sputtering - PVD, plasma CVD - Capacitively coupled plasma (CCP) - Dielectric barrier discharge (DBD), etc. ◆ Outputs various calculation results ◆ - Potential distribution - Density distribution/temperature distribution/generation distribution of electrons and ions - Particle flux and energy flux to the wall - Energy spectrum of electrons and ions at the wall - Density distribution/temperature distribution/velocity distribution of neutral gas, etc. *For more details, please feel free to contact us at information@wavefront.co.jp.

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Supports ICP: Analysis Software 'Particle-PLUS'

Supports ICP: Analysis Software 'Particle-PLUS'

"Particle-PLUS" is a plasma and rarefied fluid analysis software that excels in ICP and CCP analysis using particle methods.

"Particle-PLUS" is software suitable for research and development of devices using plasma, compatible with ICP and CCP. - Excels in simulations of low-pressure gases where fluid modeling is challenging - Calculation functions for inductive heating for ICP simulations - Advanced physical model analysis such as CCP and external circuit models - Capable of simultaneously simulating ICP and CCP - Supports 2D and 3D, efficiently analyzing complex models - As a strength of our in-house developed software, customization to fit customer devices is possible ◆ Supports various cases ◆ - Magnetron sputtering - PVD, plasma CVD - Capacitively coupled plasma (CCP) - Dielectric barrier discharge (DBD), etc. ◆ Outputs various calculation results ◆ - Potential distribution - Density distribution/temperature distribution/generation distribution of electrons and ions - Particle flux and energy flux to the walls - Energy spectrum of electrons and ions at the walls - Density distribution/temperature distribution/velocity distribution of neutral gas and more *For more details, please feel free to contact us. sales@wavefront.co.jp

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