³⁶Cl is cosmogenic nuclide (half-life:301 kyr) produced mainly by a reaction of ⁴⁰Ar(p, nα)³⁶Cl in the upper atmosphere. Cosmogenic nuclides fall on the Earth's surface at a rate depending on the nuclide production rates and hence reflecting the cosmic ray intensity. Therefore we can reconstruct fluctuations of cosmic ray intensity, by determining the past ³⁶Cl depositional flux. Such fluctuations of cosmic ray intensity may indicate paleo solar activity and/or variations in the Earth's geomagnetic field. In this presentation, we report the results of cosmogenic ³⁶Cl measurements during 10.55 - 18.42 kyr b2k in the ice core drilled at the Dome Fuji station, Antarctica (Motoyama et al., 2007). ³⁶Cl in the ice was measured with the accelerator mass spectrometry (AMS) system at the University of Tsukuba (Sasa et al., 2010). The results show that ³⁶Cl conc. is 0.21 - 1.80 × 10⁴ atoms g^-1 and ³⁶Cl flux is 0.54 - 3.25 × 10⁴ atoms cm^-2 yr^-1. The variation of ³⁶Cl flux in early Holocene shows similar fluctuations of ¹⁰Be flux in the same ice core. ³⁶Cl/¹⁰Be is constant at 0.10 ± 0.01 in early Holocene. This means that this value can be used for radioactive age dating of the old ice core. ³⁶Cl/¹⁰Be varies in the last deglaciation. It suggests that the decrease in ³⁶Cl/¹⁰Be ratio is linked to climate change.