public static double Calc(JulianDayNumber julianDay, double tidalAcceleration) { var gregorianYear = julianDay.GetGregorianYear(); double dt = 0.0; if (julianDay >= J2016 || julianDay < JMinus720) { var t = (gregorianYear - 1825) / 100.0; dt = -320 + 32.5 * t * t; if (julianDay >= J2016) { dt += 269.4790417; // to make curve continous on 1 Jan 2016 (D. Koch) } else { dt -= 179.7337208; // to make curve continous on 1 Jan -720 (D. Koch) } } else { for (int i = 0; i < _coefficients.Length; i++) { ref var data = ref _coefficients[i]; if (julianDay < data.End) { var t = (double)(julianDay - data.Begin) / (double)(data.End - data.Begin); dt = data.Coef1 + data.Coef2 * t + data.Coef3 * t * t + data.Coef4 * t * t * t; } } }
/// <see cref="deltat_longterm_morrison_stephenson"/> public static double Calc(JulianDayNumber tjd) { var gregorianYear = tjd.GetGregorianYear(); double u = (gregorianYear - 1820) / 100.0; return(-20 + 32 * u * u); }
/// <summary> /// Stephenson & Morrison (2004) /// </summary> public static double Calc(JulianDayNumber tjd, double tid_acc) { double ans = 0, ans2, ans3; double p, B, dd; double tjd0; int iy; double Y = tjd.GetGregorianYear(); /* before -1000: * formula by Stephenson & Morrison (2004; p. 335) but adjusted to fit the * starting point of table dt2. */ if (Y < DeltaTTabulated.Tab2Start) { // before -1000 ans = DeltaTLongtermMorrisonStephenson.Calc(tjd); ans = TidalAcceleration.AdjustForTidalAcceleration(ans, Y, tid_acc, TidalAccelerationMode.Const26, false); /* transition from formula to table over 100 years */ if (Y >= DeltaTTabulated.Tab2Start - 100) { /* starting value of table dt2: */ ans2 = TidalAcceleration.AdjustForTidalAcceleration(DeltaTTabulated.dt2[0], DeltaTTabulated.Tab2Start, tid_acc, TidalAccelerationMode.Const26, false); /* value of formula at epoch TAB2_START */ /* B = (TAB2_START - LTERM_EQUATION_YSTART) * 0.01; * ans3 = -20 + LTERM_EQUATION_COEFF * B * B;*/ tjd0 = (DeltaTTabulated.Tab2Start - 2000) * 365.2425 + (double)JulianDayNumber.J2000; ans3 = DeltaTLongtermMorrisonStephenson.Calc(JulianDayNumber.FromRaw(tjd0)); ans3 = TidalAcceleration.AdjustForTidalAcceleration(ans3, Y, tid_acc, TidalAccelerationMode.Const26, false); dd = ans3 - ans2; B = (Y - (DeltaTTabulated.Tab2Start - 100)) * 0.01; /* fit to starting point of table dt2. */ ans -= dd * B; } } /* between -1000 and 1600: * linear interpolation between values of table dt2 (Stephenson & Morrison 2004) */ if (Y >= DeltaTTabulated.Tab2Start && Y < DeltaTTabulated.Tab2End) { double Yjul = tjd.GetJulianYear(); p = Math.Floor(Yjul); iy = (int)((p - DeltaTTabulated.Tab2Start) / DeltaTTabulated.Tab2Step); dd = (Yjul - (DeltaTTabulated.Tab2Start + DeltaTTabulated.Tab2Step * iy)) / DeltaTTabulated.Tab2Step; ans = DeltaTTabulated.dt2[iy] + (DeltaTTabulated.dt2[iy + 1] - DeltaTTabulated.dt2[iy]) * dd; /* correction for tidal acceleration used by our ephemeris */ ans = TidalAcceleration.AdjustForTidalAcceleration(ans, Y, tid_acc, TidalAccelerationMode.Const26, false); } ans /= 86400.0; return(ans); }
/// <summary> /// Model used SE 1.77 - 2.05.01, for epochs before 1633: /// Polynomials by Espenak & Meeus 2006, derived from Stephenson & Morrison 2004. /// deltat_model == SEMOD_DELTAT_ESPENAK_MEEUS_2006: /// This method is used only for epochs before 1633. /// (For more recent epochs, we use the data provided by Astronomical Almanac K8-K9.) /// </summary> /// <see cref="deltat_espenak_meeus_1620"/> public static double Calc(JulianDayNumber tjd, double tidalAcceleration) { double ans = 0; double u; double Ygreg = tjd.GetGregorianYear(); if (Ygreg < -500) { ans = DeltaTLongtermMorrisonStephenson.Calc(tjd); } else if (Ygreg < 500) { u = Ygreg / 100.0; ans = (((((0.0090316521 * u + 0.022174192) * u - 0.1798452) * u - 5.952053) * u + 33.78311) * u - 1014.41) * u + 10583.6; } else if (Ygreg < 1600) { u = (Ygreg - 1000) / 100.0; ans = (((((0.0083572073 * u - 0.005050998) * u - 0.8503463) * u + 0.319781) * u + 71.23472) * u - 556.01) * u + 1574.2; } else if (Ygreg < 1700) { u = Ygreg - 1600; ans = 120 - 0.9808 * u - 0.01532 * u * u + u * u * u / 7129.0; } else if (Ygreg < 1800) { u = Ygreg - 1700; ans = (((-u / 1174000.0 + 0.00013336) * u - 0.0059285) * u + 0.1603) * u + 8.83; } else if (Ygreg < 1860) { u = Ygreg - 1800; ans = ((((((0.000000000875 * u - 0.0000001699) * u + 0.0000121272) * u - 0.00037436) * u + 0.0041116) * u + 0.0068612) * u - 0.332447) * u + 13.72; } else if (Ygreg < 1900) { u = Ygreg - 1860; ans = ((((u / 233174.0 - 0.0004473624) * u + 0.01680668) * u - 0.251754) * u + 0.5737) * u + 7.62; } else if (Ygreg < 1920) { u = Ygreg - 1900; ans = (((-0.000197 * u + 0.0061966) * u - 0.0598939) * u + 1.494119) * u - 2.79; } else if (Ygreg < 1941) { u = Ygreg - 1920; ans = 21.20 + 0.84493 * u - 0.076100 * u * u + 0.0020936 * u * u * u; } else if (Ygreg < 1961) { u = Ygreg - 1950; ans = 29.07 + 0.407 * u - u * u / 233.0 + u * u * u / 2547.0; } else if (Ygreg < 1986) { u = Ygreg - 1975; ans = 45.45 + 1.067 * u - u * u / 260.0 - u * u * u / 718.0; } else if (Ygreg < 2005) { u = Ygreg - 2000; ans = ((((0.00002373599 * u + 0.000651814) * u + 0.0017275) * u - 0.060374) * u + 0.3345) * u + 63.86; } ans = TidalAcceleration.AdjustForTidalAcceleration(ans, Ygreg, tidalAcceleration, TidalAccelerationMode.Const26, false); ans /= 86400.0; return(ans); }
/// <summary> /// Calculate DeltaT /// </summary> /// <remarks> /// delta t is adjusted to the tidal acceleration that is compatible /// with the ephemeris mode contained in ephemerisMode and with the ephemeris /// files made accessible through swe_set_ephe_path() or swe_set_jplfile(). /// If ephemerisMode is null, then the default tidal acceleration is ussed(i.e. that of DE431). /// </remarks> /// <see cref="calc_deltat"/> /// <returns>DeltaT (ET - UT) in days</returns> public static double Calc(JulianDayNumber julianDay, DeltaTMode deltaTMode, EphemerisMode?ephemerisMode) { var tidalAcceleration = ephemerisMode is null ? TidalAcceleration.Get(JPLDENumber.Default) : TidalAcceleration.Calculate(ephemerisMode.Value, julianDay, JPLDENumber.Auto); if (deltaTMode == DeltaTMode.Stephenson_Etc_2016 && julianDay < JulianDayNumber.J1955) { double deltaT = DeltaTStephensonEtc2016.Calc(julianDay, tidalAcceleration); if (julianDay >= JulianDayNumber.J1952_05_04) { deltaT += (1.0 - (double)(JulianDayNumber.J1955 - julianDay) / 1000.0) * 0.6610218 / 86400.0; } return(deltaT); } if (deltaTMode == DeltaTMode.Espenak_Meeus_2006 && julianDay < J1633) { return(DeltaTEspenakMeeus1620.Calc(julianDay, tidalAcceleration)); } var year = julianDay.GetYear(); // delta t model used in SE 1.72 - 1.76: Stephenson & Morrison 2004; before 1620 if (deltaTMode == DeltaTMode.Stephenson_Morrison_2004 && year < DeltaTTabulated.TabStart) { // before 1600: if (year < DeltaTTabulated.Tab2End) { return(DeltaTStephensonMorrison2004_1600.Calc(julianDay, tidalAcceleration)); } else { // between 1600 and 1620: // linear interpolation between end of table dt2 and start of table dt return(DeltaTTabulated.CalcInterpolated(year, julianDay.GetGregorianYear(), tidalAcceleration)); } } /* delta t model used before SE 1.64: * Stephenson/Morrison 1984 with Borkowski 1988; * before 1620 */ if (deltaTMode == DeltaTMode.Stephenson_Morrison_1984 && year < DeltaTTabulated.TabStart) { double B; double ans; if (year >= 948.0) { /* Stephenson and Morrison, stated domain is 948 to 1600: * 25.5(centuries from 1800)^2 - 1.9159(centuries from 1955)^2 */ B = 0.01 * (year - 2000.0); ans = (23.58 * B + 100.3) * B + 101.6; } else { /* Borkowski, before 948 and between 1600 and 1620 */ B = 0.01 * (year - 2000.0) + 3.75; ans = 35.0 * B * B + 40.0; } return(ans / 86400.0); } /* 1620 - today + a few years (tabend): * Tabulated values of deltaT from Astronomical Almanac * (AA 1997etc., pp. K8-K9) and from IERS * (http://maia.usno.navy.mil/ser7/deltat.data). */ if (year >= DeltaTTabulated.TabStart) { return(DeltaTTabulated.Calc(julianDay, tidalAcceleration, deltaTMode)); } return(0); }