Feb 21, 1991 Practical magnetron sputtering system for the deposition of optical multilayer coatings. J. A. Dobrowolski, James R. Pekelsky, R. Pelletier, M. Ranger, Brian T. Sullivan, and A. J. Waldorf. A magnetron sputtering system is described in which, at any one time, as many as four different 15-cm x.
Deposition error compensation for optical multilayer coatings. II. Experimental results-sputtering system. Brian T. Sullivan and J. A. Dobrowolski. A fully automated magnetron-sputtering system for the deposition of complicated optical multilayer structures is described. The process control includes the real-time determination
Appl Opt. 1992 Jul 1;31(19):3784-9. doi: 10.1364/AO.31.003784. Practical magnetron sputtering system for the deposition of optical multilayer coatings. Dobrowolski JA, Pekelsky JR, Pelletier R, Ranger M, Sullivan BT, Waldorf AJ. A magnetron sputtering system is described in which, at any one time, as many as four
scia Multi 680 - Periodical multilayer coating for precision optics. by Magnetron Sputtering. scia Multi 680. The scia Multi 680 is designed for periodic multilayer coatings for substrates up to 650 mm dia. and 50 kg. Typical applications are gradient multilayer coatings of mirrors for soft X?ray and anti-reflective coatings in UV
Aug 5, 2015 Chromium-based coatings are deposited on a 100Cr6 (AISI 52100) substrate by a physical vapor deposition magnetron sputtering system. The coatings have different structures, such as a CrN monolayer and CrAlN multilayer. The structural and morphological compositions of the coatings were evaluated
We demonstrate a new coating system for diffusion-barrier applications on polymer substrates like PET and PC. The barrier system is designed as a multilayer coating, which is composed of oxide-like barrier layers embedded in “soft” polymer-like material. This system acts as a highly stable unit, which shows excellent
coatings for your applications. Why Blue Wave Semiconductors? Custom thin film coatings for your applications without having to invest in vacuum systems>; Quick and short-run, quality production that is ideal for prototyping; A variety of deposition methods are available (see the listing below for details). Blue Wave offers
The coatings were characterized by X-Ray Diffraction (XRD) and Transmission Electron Microscopy (TEM). The multilayer coating system was composed of alternate cubic rock-salt CrN and NbN layers, coherently strained due to lattice mismatch. The film grew with columnar morphology through the entire stratified structure.
corrosion protection properties are obtained for the. TiN+multiTiAlSiN+TiN and TiN+TiAlSiN+AlSiTiN coatings, deposited by PVD process and TiC+Ti(C,N)+Al2O3+TiN coatings deposited by CVD process. (Fig. 2, Table 1). This may be explained by the fact that the multilayer coating deposition system gives better possibility