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Electronic energy loss of the latent track in heavy ion-irradiated polyimide

Sun You-Mei Liu Jie Zhang Chong-Hong Wang Zhi-Guang Jin Yun-Fan Duan Jing-Lai Song Yin

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Electronic energy loss of the latent track in heavy ion-irradiated polyimide

Sun You-Mei, Liu Jie, Zhang Chong-Hong, Wang Zhi-Guang, Jin Yun-Fan, Duan Jing-Lai, Song Yin
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  • In the interaction process of a swift heavy ion (SHI) and polymer, a latent track with radius of several nanometers appears near the ion trajectory due to the dense ionization and excitation. To describe the role of electronic energy loss (dE/dX)e, multi-layer stacks (with different dE/dX) of polyimide (PI) films were irradiated by different SHIs (1.158GeV Fe56 and 1.755GeV Xe136) under vacuum at room temperature. Chemical changes of modified PI films were studied by Fourier Transform Infrared (FTIR) spectroscopy. The main feature of SHI irradiation is the degradation of the functional group and creation of alkyne. The chain disruption rate of PI was investigated in the fluence range from 1×1011 to 6×1012 ions/cm2 and a wider energy stopping power range (2.2 to 5.2 keV/nm for Fe56 ions and 8.6 to 11.3 keV/nm for Xe136 ions). Alkyne formation was observed over the electronic energy loss range of interest. Assuming the saturated track model (the damage process only occur in a cylinder of area σ), the mean degradation and alkyne formation radii in tracks were deduced for Fe and Xe ion irradiation, respectively. The results were validated by the thermal spike model and the threshold electronic energy loss of track formation Set in PI was deduced. The analysis of the irradiated PI films shows that the predictions of the thermal spike model are in qualitative agreement with the curve shape of experimental results.
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Publishing process
  • Received Date:  05 February 2005
  • Accepted Date:  31 March 2005
  • Published Online:  20 November 2005

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