The effects of the tube diameter on the discharge ignition and the plasma properties of atmospheric‐pressure microplasma confined inside capillary.

With plasma penetration into a capillary and the assistant of an air DBD, an ac‐driven Ar microplasma plume having a length of several cm is generated inside the capillary. The inner diameter of the capillary ranges from 4 to 100 µm. When the tube diameter decreases, the length of the microplasma plume decreases, and while the ignition voltage, the current density, and the electron density increase significantly. For the tube diameter of 9 µm, the current density and the electron density measured from the Stark broadening of Hα line reach as high as 109 A m−2 and 11 × 1016 cm−3, respectively. The microplasma plume is of high degree of ionization and remains non‐thermal. Rather than monotonically increasing, the propagation velocity of the microplasma plume decreases and then keeps almost unchanged after the tube diameter reaches 20 µm. The effects of the tube diameter in the range of 4–100 μm on the discharge ignition and the plasma properties of Ar microplasma plume are investigated. As the tube diameter decreases to 9 μm, the current density and the electron density reach up to 3.5× 109 A/m2 and 11 × 1016 cm−3, respectively. This study is beneficial to the miniature of the plasma jets for biomedical applications and surface modification. [ABSTRACT FROM AUTHOR]