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Miller WH, Möller AR, Bernhard CG (1966) The corneal nipple array. CG. Bernhard, Functional
organization of the compound eye (S 21-33). Pergamon Press, Oxford
Nolting W (2009). Grundkurs Theoretische Physik 7: Viel-Teilchen-Theorie. Springer Verlag, Berlin
Powell RW (1965) Correlation of metallic thermal and electrical conductivities for both solid and
liquid phases. Int. J. Heat Mass Transfer 8(7):1033-1045
Powell CF, Oxley JH, Blocher JM, Klerer J (1966) Vapor deposition. J. Electrochem. Soc Vol 113(10):
266C-269C, doi:10.1149/1.2423765
Pulker HK (1999) Coatings on glass (2nd Ed Ausg). Elsevier Science B.V, Amsterdam
Österreichische Normungsinstitut für Normung e. V (ON) (1999) OENORM B 8110-3- Wärme-
schutz im Hochbau - Wärmespeicherung und Sonneneinflüsse. Beuth Verlag, Berlin
Randich E, Pettit R B (1981) Solar selective properties and high temperature stability of CVD ZrB2.
Sol. Energy Mater 5(4):425-435
Sämann N, Raulf M, Nabbefeld-Arnold E, Korff M (2006) Europäisches Projekt-Solabs. techforum.
Thyssen-Krupp
Sakka S (2005) Applications of Sol-Gel technology. In S. Sakka, Handbook of Sol-Gel Science and
Technologie (Bd. III, S 599-760). Kluwer Academic Publishers, Boston
Sathiaraj TS, Thangaraj R, Al Sharbaty H, Agnihotri OP (1991) Optical properties of selectively ab-
sorbing r.f. sputtered Ni-Al
2
O
3
composite films. Thin Solid Films, 195:33-42
Schaube H, Werner H (1986) Wärmeübergangskoeffizient unter natürlichen Klimabedingungen.
F-I f Bauphysik, (Hrsg) IBP-Mitteilung, Jg 13(109):2-4
Schmid J (1978) Transparente Wärmedämmung. C.F. Müller, Hamburg
Schön JH, Binder G, Bucher E (1994) Performance and stability of some new high-temperature
selective absorber systems based on metal/ dielectric multilayers. Sol Energy Mater Sol Cells,
33:403-416
Sella C, Bichri A, Martin J C, Lafait J, Driss-Khodja K, Berthier S (1989) Adjustable optical properties
of coatings based on cermet thin films near the percolation threshold. Physica A 157(1):555-560
Seraphin BO (1976) Chemical vapor deposition of thin semiconductor films for solar energy conver-
sionstar, open. Thin Solid Films 39:87-94
Siemens Concentrated Solar Power, Ltd. (2011) Siemens UVAC 2010. http://www.energy.siemens.
com/hq/pool/hq/power-generation/renewables, Siemens AG, Energy Sector, Freyeslebenstrasse
1, 91058 Erlangen, Germany
Smakula A (1957) Acta crystallographica, 10:735-863
Sorge W, IfB GmbH (2009) Vakuumdämmung im Bauwesen. ZAE Würzburg, Nürnberg
Stegmeier T, Linke M, Planck H (2009) Bionics in textiles: flexible and translucent thermalinsulati-
ons for solar thermal applications. Phil Trans R Soc A, 367:1749-1758
Sutherland W (1893) The viscosity of gases and molecular force. Philos Mag, 36:507-531
Thiemann S (2000) Das Prinzip Fernerkundung. Scientific Technical Report 00/04, GeoForschungs
Zentrum Potsdam, Potsdam
Thornton JA, Penfold A, Lamb JL (1980) Sputter-deposited Al
2
O
3
/Mo/ Al
2
O
3
selective absorber coa-
tings. Thin Solid Films 72:101-109
Thornton JA, Lamb JL (1982) Thermal stability studies of sputter-deposited multilayer selective ab-
sorber coatings. Thin Solid Films, 96(2):175-183
VDI (2005) VDI-Wärmeatlas-Berechnungsblätter für den Wärmeübergang (10 Auf Ausg). D D V,
(Hrsg) Springer-Verlag GmbH, Berlin
Vien TK, Sella C, Lafait J, Berthier S (1985) Pt-Al
2
O
3
selective cermet coatings on superalloy substra-
tes for photothermal conversion up to 600 °C. Thin Solid Films, 126, S 17-22
Wakao N, Vortmeyer D (1971). Pressure dependency of effective thermal conductivity of packed
beds. Chem Eng Sci 26 (10):1753-1765
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