| Category |
Title / Sections |
Scholar |
Branch of Study |
Year |
| Page |
Fig.l.4. Energy band diagram of conduction processes ina thin film insulator in a high applied electric field.. (Thesis: Studies on the electrical, optical and thermal properties of Molybdenum trioxide, Vanadium pentoxide and Titanium dioxide thin films ) |
Krishnakumar, S |
Physics |
1995 |
| Page |
Fig.I.5. Energy band diagram of the conduction processes in a thin insulator film at a low applied electric field.. (Thesis: Studies on the electrical, optical and thermal properties of Molybdenum trioxide, Vanadium pentoxide and Titanium dioxide thin films |
Krishnakumar, S |
Physics |
1995 |
| Page |
iii) Impurity conduction. (Thesis: Studies on the electrical, optical and thermal properties of Molybdenum trioxide, Vanadium pentoxide and Titanium dioxide thin films ) |
Krishnakumar, S |
Physics |
1995 |
| Page |
iv) Space-charge effect. (Thesis: Studies on the electrical, optical and thermal properties of Molybdenum trioxide, Vanadium pentoxide and Titanium dioxide thin films |
Krishnakumar, S |
Physics |
1995 |
| Page |
1.8.1.2 Ionic conduction. (Thesis: Studies on the electrical, optical and thermal properties of Molybdenum trioxide, Vanadium pentoxide and Titanium dioxide thin films ) |
Krishnakumar, S |
Physics |
1995 |
| Page |
1.8.2. Low field conduction. (Thesis: Studies on the electrical, optical and thermal properties of Molybdenum trioxide, Vanadium pentoxide and Titanium dioxide thin films |
Krishnakumar, S |
Physics |
1995 |
| Page |
1.8.2.1 Electronic impurity conduction. (Thesis: Studies on the electrical, optical and thermal properties of Molybdenum trioxide, Vanadium pentoxide and Titanium dioxide thin films ) |
Krishnakumar, S |
Physics |
1995 |
| Page |
1.8.2.2 Ionic conduction. (Thesis: Studies on the electrical, optical and thermal properties of Molybdenum trioxide, Vanadium pentoxide and Titanium dioxide thin films |
Krishnakumar, S |
Physics |
1995 |
| Page |
Fig.l.7. Arrhenius plot of conductivity of a typical insulator lor low fields.. (Thesis: Studies on the electrical, optical and thermal properties of Molybdenum trioxide, Vanadium pentoxide and Titanium dioxide thin films ) |
Krishnakumar, S |
Physics |
1995 |
| Page |
Fig.2.2. cross-section of oil-sealed rotary pump.. (Thesis: Studies on the electrical, optical and thermal properties of Molybdenum trioxide, Vanadium pentoxide and Titanium dioxide thin films |
Krishnakumar, S |
Physics |
1995 |
| Page |
Fig.2.3. Schematic diagram of cross-section diffusion pump,. (Thesis: Studies on the electrical, optical and thermal properties of Molybdenum trioxide, Vanadium pentoxide and Titanium dioxide thin films ) |
Krishnakumar, S |
Physics |
1995 |
| Page |
2.4 Vacuum coating plant. (Thesis: Studies on the electrical, optical and thermal properties of Molybdenum trioxide, Vanadium pentoxide and Titanium dioxide thin films |
Krishnakumar, S |
Physics |
1995 |
| Page |
Fig.2.4. Schematic diagram of a vacuum coating unit.. (Thesis: Studies on the electrical, optical and thermal properties of Molybdenum trioxide, Vanadium pentoxide and Titanium dioxide thin films ) |
Krishnakumar, S |
Physics |
1995 |
| Page |
Plate 2.1 Photograph of the thin film vaccum coating unit used in the Laboratory. (Thesis: Studies on the electrical, optical and thermal properties of Molybdenum trioxide, Vanadium pentoxide and Titanium dioxide thin films |
Krishnakumar, S |
Physics |
1995 |
| Page |
2.5 Substrate cleaning. (Thesis: Studies on the electrical, optical and thermal properties of Molybdenum trioxide, Vanadium pentoxide and Titanium dioxide thin films ) |
Krishnakumar, S |
Physics |
1995 |
