中文摘要：

作为等离子体重要参数之一,特别是在低温等离子体中离子温度的测量一直较为困难.在磁化线性等离子体装置氧化物阴极脉冲放电条件下,利用栅网激发离子声波,通过测量波幅在朗道阻尼作用下随空间的演化,利用阻尼长度是离子温度和电子温度的函数,计算得到离子温度为0.3 eV.测量值与国外类似装置利用光谱诊断所得结果基本相同.

英文摘要：

Ion temperature is one of the fundamental plasma parameters,which is important for studying the plasma behavior and instabilities.The measurement of ion temperature is very difficult especially in a low temperature plasma.The traditional passive and active（laser induced fluorescence） spectral diagnostics are complex and expensive because of the low value of the ion temperature,while the resolution of the retarding energy analyzer is not fine enough to measure the small Ti.Here we utilize the method of ion acoustic wave Landau damping to measure the ion temperature in the linear magnetized plasma device,where the 2 meter long plasma column with 12 cm in diameter is produced by an indirectly heated oxide cathode plasma source.The device provides a wide range of plasma parameters for many fundamental issues of plasma research.The typical plasma density is 2 × 10~（17） m~（-3） and neutral argon pressure is 0.02 Pa.Discharge pulse length is 5.8 ms with a plateau period of 4.8 ms.Ion acoustic waves（IAWs） are excited via biased plane stainless mesh grid with a high transparency of 80%.The grid with 10 cm in diameter is located in the center of the device（1.5 m away from the plasma source）,while its normal axis is parallel to the magnetic field lines.Ion acoustic waves are excited during the discharge pulse via the sine signals applied to the grid.The biasing peak-peak voltage is 12 V with frequencies of 800 kHz and 1 MHz.IAW is also excited with biasing voltage 24 V and frequency 800 kHz,while the experimental results exclude the existence of the ion burst mode.A movable Langmuir probe controlled by a step motor is used to measure the spatial evolution of the IAW along the magnetic field.Thus the damping length and the phase velocity of the IAW propagating in the magnetic field are measured under different conditions.The measured phase velocity is around 3200 m/s in plasma coordinate.The electron temperature is measured to be 2.9 eV resulting from theⅤ-Ⅰ curve of single probe.Based on the measured