Parametric Conversion “Picture” Angle of Incidence of the G.W. Results from H4K Sensitivity

1. Detection Of High Frequency Gravitational Waves At LIGO W.Butler , A.C.MelissinosUniversity of Rochester • Parametric Conversion “Picture” • Angle of Incidence of the G.W. • Results from H4K • Sensitivity • Possibilities with Advanced LIGO LSC Presentation 3/17/03

2. PARAMETRICCONVERSION • THE LIGO IFO ADMITS A SPECTRUM OF DISCRETE FREQUENCIES n THE FREQUENCIES ARE EQUALLY SPACED Δ0= 2L/c 0 IS THE FREE SPECTRAL RANGE (fsr) 0= 37.52 kHz _____ _____ n+1 _____ n _____ n-1 _____ WHEN THE IFO IS LOCKED ONLY ONE MODE IS OCCUPIED n = n / 0  1010 THE WIDTH OF THE MODES IS    / Q Q = F (2L / )  1012 IN THE PRESENCE OF A PERTURBATION AT FREQUENCY      THE (n+1) AND (n-1) MODES BECOME POPULATED LSC Presentation 3/17/03

3. 2. EXPECTED SIGNAL EnFIELD IN MODE n En1FIELD IN MODE n1 DIMENSIONLESS PERTURBATION FOR En1 << EnAND t >> Q /  En1 = 0.5 En Q 3. EXAMPLE: END MIRROR (ETM) MOTION x = x0 cos  t  = x0 / L En1 = En (x0 / 0) F /[1 + ( / )2] 1/2  = 0 ( / F) LSC Presentation 3/17/03

4. EFFECT OF A GRAVITATIONAL WAVE • TRANSFER FUNCTION FOR “OPTIMAL INCIDENCE”,  = 0 H1() = sinc() e-i  = 2L / c = 1 / 0 H1() = 0 • TRANSFER FUNCTION FOR    H1() = cos2 {sinc[ sin ]e-i + sinc[ +sin ] ei} e-i()(2+sin ) • FOR F-P CAVITY HFP() = H1() /[(1- r1)2 + 4r1 sin2(/2)]1/2 • AVERAGE OVER ANGLES, POLARIZATION 1/5 • SIDEBANDS AT      LSC Presentation 3/17/03

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7. RESULTS FROM H4K (2002-W.BUTLER) • SHAKE ITMX (SINGLE ARM) EXTRAPOLATE MIRROR MOTION FROM D.C. CALIBRATION. (FOR 1V DRIVE) x0(0) = xDC / (1 + (0/p)2) = 8 x 10-16 m (1) OBSERVE AT A.S.PORT EA CARRIER FIELD ON BS E2 SIDEBAND FIELD ON BS ERF |EA / E2| = 4 (x0 / c) F (2) PHOTODIODE VOLTAGE VA = k |E2|2 |ERF / E2| |EA / E2|  30 |EA / E2| (V) OBSERVE (FOR 1V DRIVE) VA = 3 x 10-5 V  |EA / E2|  10-6 FIND USING (2) x0 10-15 m IN AGREEMENT WITH (1). LSC Presentation 3/17/03

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9. SHAKE ITMX (FULLY RECYCLED IFO) PARAMETRIC RESONANCE MUCH NARROWER GOVERNED BY “DOUBLE CAVITY POLE” cc  0 (1 – rF*R) rF*R REFLECTIVITY OF FRONT CAVITY MIRROR WHEN RECYCLING CAVITY ON RESONANCE • SENSITIVITY FOR TINT = 100 s OBSERVE VN = 2 x 10-7 V (S/N 150) FOR TINT = 105 s (1 DAY) EXPECT VN = 0.6 x 10-8 V (S/N = 5) x0 = 10-18 m x0 / L = h = 2.5 x 10-22 LSC Presentation 3/17/03

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14. THE “RECYCLING” MIRROR NOW COUPLES THE TWO ARMS (CAVITIES) LIGO WITH SIGNAL RECYCLING LASER THE CAVITY MODES SPLIT INTO S = 0 + (c / 2L)(1/) tan{arctan [(1-r1)/(1+r1) cot z/4]} A = 0 - (c / 2L)(1/) tan{arctan [(1-r1)/(1+r1) tan z/4]} z = 2 (2a / ) 2a = distance between cavities r1 = cavity input mirror reflectivity LOCK LASER AT S SIGNAL APPEARS AT A LSC Presentation 3/17/03

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