Horizontal magnification of finite-sized celestial objects

Sergey N. Kivalov; Andrew T. Young

doi:10.1364/AO.49.002720

Applied Optics
Vol. 49,
Issue 14,
pp. 2720-2727
(2010)
•https://doi.org/10.1364/AO.49.002720

Horizontal magnification of finite-sized celestial objects

Sergey N. Kivalov and Andrew T. Young

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Sergey N. Kivalov and Andrew T. Young, "Horizontal magnification of finite-sized celestial objects," Appl. Opt. 49, 2720-2727 (2010)

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Abstract

We investigate the magnification due to refraction of the apparent horizontal sizes of finite celestial bodies, such as the Sun or Moon. Two models are discussed and compared with the earlier works of Biot and Chauvenet. It is shown that the apparent horizontal size of the object varies with respect to its true horizontal size as a function of altitude or zenith distance, from a reduction of about 0.0276% at the zenith, to an amplification of about 0.0045% when the object appears just at the horizon (namely, when the true altitude γ is negative and related to the corresponding refraction R by $γ = - R$ ). It is also shown that the apparent horizontal size is equal to the true size when the true altitude γ is related to the corresponding refraction R by $γ = - R / 2$ . Thus, the total magnification (and reduction) range for differently sized objects is about 0.032%–0.033% and depends on the refraction.

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α (deg.)	$R_{\min}$ ^a (deg.)	$R_{\max}$ (deg.)	$Y_{\min}$ ^b (deg.)	$Y_{\max}$ (deg.)	$B_{\min}$ ^c (deg.)	$B_{\max}$ (deg.)
0.01	0.0099972	0.01000045	0.0099972	0.01000045	0.0099972	0.01000046
0.05	0.0499862	0.0500022	0.049986	0.050002	0.049986	0.0500023
0.1	0.0999724	0.1000045	0.099972	0.1000045	0.099972	0.1000046
0.5	0.4998622	0.5000226	0.499861	0.500023	0.4998601	0.5000233
1	0.9997244	1.0000452	0.9997228	1.0000457	0.9997203	1.0000466
2	1.9994487	2.0000903	1.999446	2.000091	1.9994406	2.000093
3	2.9991729	3.0001977	2.999168	3.000137	2.9991608	3.0001398
4	3.9988971	4.0001806	3.99889	4.000183	3.9988809	4.0001864
5	4.9986211	5.0002256	4.998613	5.000228	4.9986008	5.0002329
10	9.9972389	10.000449	9.997223	10.000455	9.997198	10.000464
15	14.995845	15.00067	14.995821	15.000678	14.995784	15.000691

Wavelengths ( $μm$ )	Reduction (%)	Amplification (%)	Magnification Range (%)
Red light, $λ = 0.7$	0.0276	0.0045	0.0321
Yellow light, $λ = 0.574$	0.0277	0.0046	0.0323
Blue light, $λ = 0.47$	0.0279	0.0047	0.0326

α (deg.)	$R_{\min}$ ^a (deg.)	$R_{\max}$ (deg.)	$Y_{\min}$ ^b (deg.)	$Y_{\max}$ (deg.)	$B_{\min}$ ^c (deg.)	$B_{\max}$ (deg.)
0.01	0.0099972	0.01000045	0.0099972	0.01000045	0.0099972	0.01000046
0.05	0.0499862	0.0500022	0.049986	0.050002	0.049986	0.0500023
0.1	0.0999724	0.1000045	0.099972	0.1000045	0.099972	0.1000046
0.5	0.4998622	0.5000226	0.499861	0.500023	0.4998601	0.5000233
1	0.9997244	1.0000452	0.9997228	1.0000457	0.9997203	1.0000466
2	1.9994487	2.0000903	1.999446	2.000091	1.9994406	2.000093
3	2.9991729	3.0001977	2.999168	3.000137	2.9991608	3.0001398
4	3.9988971	4.0001806	3.99889	4.000183	3.9988809	4.0001864
5	4.9986211	5.0002256	4.998613	5.000228	4.9986008	5.0002329
10	9.9972389	10.000449	9.997223	10.000455	9.997198	10.000464
15	14.995845	15.00067	14.995821	15.000678	14.995784	15.000691

Wavelengths ( $μm$ )	Reduction (%)	Amplification (%)	Magnification Range (%)
Red light, $λ = 0.7$	0.0276	0.0045	0.0321
Yellow light, $λ = 0.574$	0.0277	0.0046	0.0323
Blue light, $λ = 0.47$	0.0279	0.0047	0.0326

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