Shock velocity and surface temperature measurements in a shock tube employing thin film resistance thermometers

Lemanski, Ronald Joseph, 1930-

January 1965

No description available.

Shock tubes.

Thin-film circuits.

Microfabrication and evaluation of planar thin-film microfluidic devices /

Peeni, Bridget A.

January 2006

Thesis (M.S.)--Brigham Young University. Dept. of Chemistry and Biochemistry, 2006. / Includes bibliographical references.

Solution-based polymeric/metal-oxide thin-film transistors and complementary circuits

Pecunia, Vincenzo

January 2014

No description available.

530

SOLID SOURCE CHEMICAL VAPOR DEPOSITION OF REFRACTORY METAL SILICIDES FOR VLSI INTERCONNECTS.

HEY, HANS PETER WILLY.

January 1984

Low resistance gate level interconnects can free the design of VLSI circuits from the R-C time constant limitations currently imposed by poly-silicon based technology. The hotwall low pressure chemical vapor deposition of molybdenum and tungsten silicide from their commercially available hexacarbonyls and silane is presented as a deposition method producing IC-compatible gate electrodes of reduced resistivity. Good hotwall deposition uniformity is demonstrated at low temperatures (200 to 300 C). The as-deposited films are amorphous by x-ray diffraction and can be crystallized in subsequent anneal steps with anneal induced film shrinkage of less than 12 percent. Surface oxide formation is possible during this anneal cycle. Auger spectroscopy and Rutherford backscattering results indicate that silicon-rich films can be deposited, and that the concentrations of carbon and oxygen incorporated from the carbonyl source are a function of the deposition parameters. At higher deposition temperatures and larger source throughput the impurity incorporation is markedly reduced. Good film adhesion and excellent step coverage are observed. Electrical measurements show that the film resistivities after anneal are comparable to those of sputtered or evaporated silicide films. Bias-temperature capacitance-voltage measurements demonstrate that direct silicide gate electrodes have properties comparable to standard metal-oxide-silicon systems. The substitution of CVD silicides for standard MOS gate metals appears to be transparent in terms of transistor performance, except for work function effects on the threshold voltage. The large wafer throughput and good step coverage of hotwall low pressure silicide deposition thus promises to become a viable alternative to the poly-silicon technology currently in use.

Thin-film circuits.

LPCVD TUNGSTEN MULTILAYER METALLIZATION FOR VLSI SYSTEMS.

KRISHT, MUHAMMED HUSSEIN., KRISHT, MUHAMMED HUSSEIN.

January 1985

Advances in microlithography, dry etching, scaling of devices, ion-implantation, process control, and computer aid design brought the integrated circuit technology into the era of VLSI circuits. Those circuits are characterized by high packing density, improved performance, complex circuits, and large chip sizes. Interconnects and their spacing dominate the chip area of VLSI circuits and they degrade the circuit performance through the unacceptable high time delays. Multilayer metallization enables shorter interconnects, ease of design and yet higher packing density for VLSI circuits. It was shown in this dissertation that, tungsten films deposited in a cold-wall LPCVD reactor offer viable solution to the problems of VLSI multilayer interconnects. Experiments showed that LPCVD tungsten films have good uniformity, high purity, low resistivity, low stress-good adherence and are readily patterned into high resolution lines. Moreover, a multilayer interconnect system consisting of three layers of tungsten metallization followed by a fourth layer of aluminum metallization has been designed, fabricated and tested. The interlevel dielectric used to separate the metal layers was CVD phosphorus doped silicon dioxide. Low ohmic contacts were achieved for heavily doped silicon. Also, low resistance tungsten-tungsten intermetallic contacts were obtained. In addition to excellent step coverage, high electromigration resistance of interconnects was realized. Finally, CMOS devices and logic gates were successfully fabricated and tested using tungsten multilayer metallization schemes.

Thin-film circuits.

Tungsten.

Electrical characterization of doped strontium titanate thin films for semiconductor memories

Han, Jeong Hee.

January 2002

Thesis (Ph. D.)--University of Texas at Austin, 2002. / Vita. Includes bibliographical references. Available also from UMI Company.

Use of photosensitive metal-organic precursors to deposit metal-oxides for thin-film capacitor applications

Barstow, Sean J.,

January 2003

Thesis (Ph. D.)--School of Chemical Engineering, Georgia Institute of Technology, 2004. Directed by Clifford L. Henderson. / Includes bibliographical references (leaves 366-371).

Electrical characterization of doped strontium titanate thin films for semiconductor memories

Han, Jeong Hee

28 August 2008

Not available / text

Strontium compounds

Thin-film circuits

Semiconductor storage devices

Development of a fully-depleted thin-body FinFET process /

Curanović, Branislav.

January 2004

Thesis (M.S.)--Rochester Institute of Technology, 2004. / Typescript. Includes bibliographical references (leaf 100).

Use of photosensitive metal-organic precursors to deposit metal-oxides for thin-film capacitor applications

Barstow, Sean J.

01 December 2003

No description available.

Metallic oxides

Semiconductors Materials

Printed circuits Materials

Thin-film circuits Materials