Editorial Comments for MEL BACG 2002 Proceedings Peter CapperStuart Irvine Editorial Introduction Pages: iii - iii
Surface characterization of sprayed CuGa x In1−x Se2 layers K. T. Ramakrishna ReddyR. W. Miles OriginalPaper Pages: 529 - 532
MBE growth of (1 1 0) refractory metals on a-plane sapphire R. C. C. WardE. J. GrierA. K. Petford-Long OriginalPaper Pages: 533 - 539
Investigation of the precision in X-ray diffraction analysis of VCSEL structures P. Kidd OriginalPaper Pages: 541 - 550
In situ optical monitoring of layer composition in the chemical beam epitaxy of AlGaAs from amine-alane sources T. B. Joyce OriginalPaper Pages: 551 - 553
Metal-organic chemical vapor deposition of β-In2S3 thin films using a single-source approach M. AfzaalD. CrouchJin-Ho Park OriginalPaper Pages: 555 - 557
In situ and ex situ stress measurements of YF3 single layer optical coatings deposited by electron beam evaporator V. BarriozS. J. C. IrvineD. P. Jones OriginalPaper Pages: 559 - 566
R.f. sputtering of high-quality Cu/In precursor layers and conversion to CuInS2 using elemental sulfidization processes I. ForbesK. T. Ramakrishna ReddyA. Chapman OriginalPaper Pages: 567 - 571
The structural features of TiO2 thin films formed by pyrosol methods K. D. RogersD. W. LaneJ. D. Painter OriginalPaper Pages: 573 - 577
Novel wet-chemical routes to highly structured semiconductor layers for improved efficiency photovoltaic devices D. BerhanuD. S. BoyleP. O'Brien OriginalPaper Pages: 579 - 582
Growth and magnetic characterization of large R2NiO4+δ (R=Pr, Nd) single crystals D. PrabhakaranA. T. BoothroydD. Gonzalez OriginalPaper Pages: 583 - 586
Single-crystal growth of La2−2x Sr1+2x Mn2O7 under pressure D. PrabhakaranA. T. Boothroyd OriginalPaper Pages: 587 - 589
In situ studies of the MBE growth of III–V systems using RHEED and STM B. A. Joyce OriginalPaper Pages: 591 - 598
Fabrication of thin films of bismuth selenide using novel single-source precursors by metal organic chemical vapor deposition J. WatersD. CrouchJin-Ho Park OriginalPaper Pages: 599 - 602