Аннотация:The low-k film damage during resist plasma processing is mainly caused by O and H atoms. Low-k surface modification via plasma pretreatment is capable to reduce the atom influence and therefore to minimize the damage. The effect of He plasma pretreatment both on low-k surface modification and interaction with O and H atoms was studied for 3 types of low-k SiOCH films: BDIIx, ELK 2.5, ELK 2.3 (porosity: 24, 24, 33{\%}, pore radius: 0.8, 0.8, 1 nm). The influence of ions, VUV radiation and metastables in He low-pressure (20 mTorr) SWD 81 MHz discharge was separately investigated. The O and H surface loss probabilities were measured in the far afterglow of the high-pressure (10 Torr) 13.56 MHz discharge. All changes occurring with low-k surface after treatment in both discharges were analyzed by FTIR spectroscopy. The phenomenological model, including recombination and reactions of O and H atoms on low-k surface, was used to analyze the obtained results.