Diurnal and semidiurnal polar motion induced by the ocean tides

OCEAN-TIDAL DIURNAL AND SEMIDIURNAL POLAR MOTION - IERS 1996 MODEL

Oceanic tides cause diurnal and semidiurnal components in the polar motion. Table here below report the model of the IERS 96 conventions. It includes 8 periodic components (4 diurnal terms, 4 semidiurnal terms) under the form:

Δx = Σ_i F_i sin ξ_i + G_i cos ξ_i
Δy = Σ_i H_i sin ξ_i + K_i cos ξ_i
where ξ_i is integer linear combination of Delaunay arguments, GMST + π and constant phase : ξ_i = a1 l + a2 l' + a3 D + a4 F + a5 Ω + a6 (GMST +π) + Φ₀. Unit for F_i, G_i, H_i, K_i is microarsecond.

                  
       l  l' F  D  Ω GMST+π  Φ₀   PERIOD      F_i       G_i          H_i       K_i   
                           (deg.) (hours)                       
Q₁    -1  0 -2  0 -2  1     -90°  26.868   - 0.026    0.006    - 0.006  - 0.026
O₁     0  0 -2  0 -2  1     -90°  25.819   - 0.133    0.049    - 0.049  - 0.133
P₁     0  0 -2  2 -2  1     -90°  24.066   - 0.050    0.025    - 0.025  - 0.050
K₁     0  0  0  0  0  1      90°  23.935   - 0.152    0.078    - 0.078  - 0.152
N₂    -1  0 -2  0 -2  2           12.658   - 0.057   - 0.013     0.011    0.033
M₂     0  0 -2  0 -2  2           12.421   - 0.330   - 0.028     0.037    0.196
S₂     0  0 -2  2 -2  2           12.000   - 0.145     0.064     0.059    0.087
K₂     0  0  0  0  0  2           11.967   - 0.036     0.017     0.018    0.022 
  
Delaunay arguments 
(IERS Conventions 2000, from Simon et al., 1994, Astron. Astrophys. 282, 663-683):
     
 Mean anomaly of the Moon :
   l = 134°.963 402 51 + 1 717 915 923.2178" t + 31".879 2 t² + 0".051 635 t³ - 0".000 244 70 t⁴
 
 Mean anomaly of the Sun  : 
   l'= 357°.529 109 18 +   129 596 581.0481" t - 0".553 2 t² -  0".000 136 t³ - 0".000 011 49 t⁴
 
 F = L -Ω  with L mean longitude of the Moon  
   F =  93°.272 090 62 + 1 739 527 262.8478" t - 12".751 2 t² - 0".001 037 t³ + 0".000 004 17 t⁴
 
 Mean elongation of the Moon from the Sun :
   D = 297°.850 195 47 + 1 602 961 601.2090" t -  6".370 6 t² + 0".006 593 t³ - 0".000 031 69 t⁴

 Mean longitude of the ascending node of the Moon :
   Ω = 125°.044 555 01  - 6 962 890.543 1" t + 7".472 2 t² + 0".007 702 t³ - 0".000 059 39 t⁴

where t is measured un Julian Centuries of 36525 days of 86400 seconds of Dynamical Time since J2000.0.          

Rotation angle in arcseconds : Greenwich Mean Sidereal Time + 180°
   GMST + π = (67310.54841 + (876600 * 3600 + 8640184.812866) t 
             + 0.093104  t² - 6.2 10^-6  t³ ) 15.0d0 + 648000.0

where t is measured un Julian Centuries of 36525 days of 86400 seconds of Dynamical Time since J2000.0.