A new structure of microwave‐driven
            <scp>UV</scp>
            lamp

Zhong, Nanya; Zhu, Huacheng; Yang, Fengming; Hong, Tao; Yang, Yang

doi:10.1002/mmce.22447

Cited by 8 publications

(2 citation statements)

References 26 publications

(26 reference statements)

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“…Furthermore, the Drude model is a classical physical model that simplifies the conductive behavior of a plasma, making it an efficient choice for designing electrodeless plasma lamps. Despite its simplifications, it has been widely used in plasma physics research and has shown relatively accurate results in specific scenarios [25][26][27]. Compared to other models like particle dynamics models and fluid models, it strikes a balance between simplicity and accuracy.…”

Section: Dimension Optimizationmentioning

confidence: 99%

A Compact Microwave-Driven UV Lamp for Dental Light Curing

Liu,

Huang,

Guo

2023

Processes

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The size of current microwave-driven UV lamps limits their direct application in dental light curing. This article proposes a coaxial structure to miniaturize the UV lamp. First, the Drude model and the finite difference time domain algorithm were used to analyze the multi-physical field coupling and the complex field distribution within the lamp. Second, the dimensional parameters of the lamp were optimized, which enabled the lamp to be miniaturized and operate with high performance. Third, to analyze the sensitivity of the lamp, the effects of input power, gas pressure, and gas composition on its performance were investigated. It was found that an input power of 6 watts was enough to light the bulb with over 90% energy utilization. Finally, to verify the feasibility, an experimental system was set up. The lamp was successfully lit in the experiment, and its spectral output was tested. The results show that the microwave-driven UV lamp based on a coaxial structure is miniaturized and broad-spectrum, making it suitable for clinical dental light curing.

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Section: Dimension Optimizationmentioning

confidence: 99%

A Compact Microwave-Driven UV Lamp for Dental Light Curing

Liu,

Huang,

Guo

2023

Processes

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“…For designing a novel MW‐APPJ, it is necessary to analyze | S 11 | and electric field strength. [ 31 ] In addition, | S 11 | represents the reflection coefficient of microwave power, which is the ratio of the reflected power to the incident power. Generally, the optimization parameter of |S 11 | is less than −10 dB, which means that more than 90% of microwave energy is absorbed by the plasma.…”

Section: Numerical Modelmentioning

confidence: 99%

A novel two‐dimensional atmospheric pressure plasma jet device

Zhong

et al. 2021

Plasma Processes & Polymers

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A novel two-dimensional atmospheric pressure plasma jet device is proposed for large-area processing. A finite element algorithm is adopted to obtain the optimized dimensions of the designed device based on microwave power reflection coefficient |S 11 | and electric field intensity. The plasma parameters of electron density n e and electron temperature T e within 0.1 ms after microwave power input were analyzed. When plasma is fully excited, n e is close to 3.5 × 10 18 m −3 , and T e is calculated to be 2 eV. Besides, an experimental system is established, and microwave power of 70 W can process 30 L of argon per minute, which shows a high energy efficiency. Two plasma jets with a width of 10 mm and a length of 5 mm

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