, The comparison of the transfer function's amplitude from rigid and non-rigid Earth model

, Atmospheric excitation time series

, Oceanic excitation time series

, Land-water excitation time series

, Spectral power of the polar motion around PMR frequency, p.19

, 20 2.6 CW parameters for three sets of hydro-atmospheric excitation in function of the data range

, The influence of matter or motion excitation terms in the estimated CW parameters 23

, FFT spectrum of the nutation offset around the FCN frequency, p.39

. .. , Amplitude and phase of the FCN in time domain, p.41

, Correlation of the estimated nutation terms: indirect -prograde, p.45

, Correlation of the estimated nutation terms: indirect -prograde, p.46

, In-phase amplitudes of nutation components estimated by the direct approach, vol.47

, Out-phase amplitudes of nutation components estimated by the direct approach 48

, The time series of atmospheric celestial effective angular momentum function . 52 5.2 The time series of oceanic celestial effective angular momentum function, p.56

, Estimates of the FCN parameters based on no atmospheric-oceanic correction, atmospheric correction only, oceanic correction only, and their combination, p.57

, Estimates of the FICN parameters based on no atmospheric-oceanic correction, atmospheric correction only, oceanic correction only, and their combination, p.57

, Selected frequency band for least-square adjustment of the PMR parameters, p.59

. .. , Oceanic Love number in diurnal retrograde band, p.65

, 2 PMR parameters in diurnal retrograde band for anelastic Earth, p.65

, PMR in diurnal retrograde band for anelastic Earth covered by ocean and containing a fluid

, Comparison between PMR from ocean tidal model and PMR from nutation inversion

. .. , Oceanic Love number in diurnal prograde band, p.75

. .. , Correlation between diurnal prograde polar motion terms, p.79

. Sibois, , 2017.

A. ;. , The distribution of VLBI station around the world, p.88

, Polar motion from C04 represented in time and frequency domains, p.89

, Nutation offset from C04 represented in time and frequency domains, p.90

, Frequency division of nutation and polar motion in the terrestrial and celestial frequency band

. .. , 25 2.4 The Love numberk 2 derived from the estimated CW period and quality factor, p.26

, The FCN complex amplitudes estimated by the direct and indirect approaches, p.40

, 44 5.1 In-phase and out-phase coefficients of 42 nutation terms from REN2000 and IAU2000 model

. Mathews, , 2002.

, Synopsis of geophysical excitation and observed nutation data, p.54

, Non-tidal atmospheric and oceanic contribution to the nutation terms, p.54

. .. , The estimated resonance parameters in the nutation band, p.58

, The PMR parameters determined over certain band of frequencies, p.60

. .. , Main terms of the ocean's angular momentum, p.61

. .. , Oceanic Love number in the diurnal retrograde band, p.64

. .. , Oceanic Love number in the prograde diurnal band, p.75

. .. , Diurnal prograde terms estimated through VLBI analysis, p.77

. .. , Diurnal prograde terms estimated through GNSS analysis, p.79

. .. , The estimated PMR parameter in the prograde diurnal band, p.82

, The PMR parameters estimated from Q1, O1, P1, K1, and J1 terms by excluding one of them

, Coefficients of the luni-solar tides

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