developments microwave
Research Topic
Language: English
This is a research topic created to provide authors with a place to attach new problem publications.
Research problems linked to this topic
- Microwave heating has been extensively explored in various fields of materials processing.
- Microwave magnetic devices have a major impact on the development of microwave technology.
- Radio frequency (RF) and microwave power is one of the key quantities in the framework of electromagnetic measurement standards.
- Study of temperature distribution in cooking stuff in a microwave oven is a complex phenomenon.
- With the higher speed growth and wide use of wireless telecommunication technology in recent years, the demand for miniature size, low profile, broadband and high gain antennas have increased so rapidly.
- Microwave Photonics is promising for generation and synthesis of radio frequency, microwave as well as millimeter wave signals of outstanding spectral purity and arbitrary wave form.
- As a practical microwave absorber, besides satisfying the basic broadband absorption performance, the density, cost, and process complexity are considerable factors in radar stealth and electromagnetic protection fields as well.
- Rapid developments of microwave dielectric materials have emerged in recent years due to their wide-spread applications and the revolution in wireless communications.
- Electronic packaging for high frequency applications trends are miniaturisation (small footprint), optimised performance (low inductance leads), low cost, and mass fabrication potential.
- Surface flashover formation at dielectric/air interfaces during pulsed high power microwave (HPM) excitation can severely limit the power densities which can be transmitted into atmospheric medium.
- Laminated ceramic packaging technologies, such as high temperature cofired ceramics (HTCC) and low temperature cofired ceramics (LTCC), are a low-cost alternative for metallic packages in high reliability applications in the microwave frequency region.
- Substrate-integrated waveguide (SIW) is a promising and potential technology for designing and developing millimeter wave and microwave components, circuits and systems.
- The effects and benefits of high peak power RF processing as a means of reducing field emission loading in 3-GHz niobium accelerator cavities are being investigated.