Prediction and experimental measurement of the electromagnetic thrust generated by a microwave thruster system

Juan Yang; Yu Quan Wang; Yan Jie Ma; Peng Fei Li; Le Yang; Yang Wang; Guo Qiang He

doi:10.1088/1674-1056/22/5/050301

Prediction and experimental measurement of the electromagnetic thrust generated by a microwave thruster system

Juan Yang, Yu Quan Wang, Yan Jie Ma, Peng Fei Li, Le Yang, Yang Wang, Guo Qiang He

School of Astronautics

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

A microwave thruster system that can convert microwave power directly to thrust without a gas propellant is developed. In the system, a cylindrical tapered resonance cavity and a magnetron microwave source are used respectively as the thruster cavity and the energy source to generate the electromagnetic wave. The wave is radiated into and then reflected from the cavity to form a pure standing wave with non-uniform electromagnetic pressure distribution. Consequently, a net electromagnetic thrust exerted on the axis of the thruster cavity appears, which is demonstrated through theoretical calculation based on the electromagnetic theory. The net electromagnetic thrust is also experimentally measured in the range from 70 mN to 720 mN when the microwave output power is from 80 W to 2500 W.

Original language	English
Article number	050301
Journal	Chinese Physics B
Volume	22
Issue number	5
DOIs	https://doi.org/10.1088/1674-1056/22/5/050301
State	Published - May 2013

Keywords

electromagnetic processes and properties
electromagnetic waves
Maxwell stress tensor

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10.1088/1674-1056/22/5/050301

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title = "Prediction and experimental measurement of the electromagnetic thrust generated by a microwave thruster system",

abstract = "A microwave thruster system that can convert microwave power directly to thrust without a gas propellant is developed. In the system, a cylindrical tapered resonance cavity and a magnetron microwave source are used respectively as the thruster cavity and the energy source to generate the electromagnetic wave. The wave is radiated into and then reflected from the cavity to form a pure standing wave with non-uniform electromagnetic pressure distribution. Consequently, a net electromagnetic thrust exerted on the axis of the thruster cavity appears, which is demonstrated through theoretical calculation based on the electromagnetic theory. The net electromagnetic thrust is also experimentally measured in the range from 70 mN to 720 mN when the microwave output power is from 80 W to 2500 W.",

keywords = "electromagnetic processes and properties, electromagnetic waves, Maxwell stress tensor",

author = "Juan Yang and Wang, {Yu Quan} and Ma, {Yan Jie} and Li, {Peng Fei} and Le Yang and Yang Wang and He, {Guo Qiang}",

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AU - Yang, Juan

AU - Wang, Yu Quan

AU - Ma, Yan Jie

AU - Li, Peng Fei

AU - Yang, Le

AU - Wang, Yang

AU - He, Guo Qiang

PY - 2013/5

Y1 - 2013/5

N2 - A microwave thruster system that can convert microwave power directly to thrust without a gas propellant is developed. In the system, a cylindrical tapered resonance cavity and a magnetron microwave source are used respectively as the thruster cavity and the energy source to generate the electromagnetic wave. The wave is radiated into and then reflected from the cavity to form a pure standing wave with non-uniform electromagnetic pressure distribution. Consequently, a net electromagnetic thrust exerted on the axis of the thruster cavity appears, which is demonstrated through theoretical calculation based on the electromagnetic theory. The net electromagnetic thrust is also experimentally measured in the range from 70 mN to 720 mN when the microwave output power is from 80 W to 2500 W.

AB - A microwave thruster system that can convert microwave power directly to thrust without a gas propellant is developed. In the system, a cylindrical tapered resonance cavity and a magnetron microwave source are used respectively as the thruster cavity and the energy source to generate the electromagnetic wave. The wave is radiated into and then reflected from the cavity to form a pure standing wave with non-uniform electromagnetic pressure distribution. Consequently, a net electromagnetic thrust exerted on the axis of the thruster cavity appears, which is demonstrated through theoretical calculation based on the electromagnetic theory. The net electromagnetic thrust is also experimentally measured in the range from 70 mN to 720 mN when the microwave output power is from 80 W to 2500 W.

KW - electromagnetic processes and properties

KW - electromagnetic waves

KW - Maxwell stress tensor

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VL - 22

JO - Chinese Physics B

JF - Chinese Physics B

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Prediction and experimental measurement of the electromagnetic thrust generated by a microwave thruster system

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Keywords

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