Crystals, Electrons, Transistors |
Contents
IV | 1 |
V | 2 |
VI | 4 |
VII | 7 |
VIII | 8 |
IX | 10 |
X | 13 |
XI | 16 |
XLV | 96 |
XLVI | 98 |
XLVII | 103 |
XLVIII | 104 |
XLIX | 106 |
L | 109 |
LI | 110 |
LII | 114 |
XII | 18 |
XIII | 19 |
XIV | 20 |
XV | 26 |
XVI | 30 |
XVII | 33 |
XVIII | 35 |
XIX | 37 |
XX | 41 |
XXI | 42 |
XXII | 44 |
XXIII | 47 |
XXIV | 50 |
XXV | 51 |
XXVI | 56 |
XXVII | 57 |
XXVIII | 59 |
XXIX | 61 |
XXX | 63 |
XXXI | 65 |
XXXII | 67 |
XXXIII | 69 |
XXXIV | 70 |
XXXV | 73 |
XXXVI | 75 |
XXXVII | 77 |
XXXVIII | 81 |
XXXIX | 82 |
XL | 87 |
XLI | 89 |
XLIII | 92 |
XLIV | 95 |
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19th century academic alloys American amplifier application areas Association atomic atomic nucleus basic became Bell Laboratories Bell Labs Berlin Brattain Bristol charge carriers chemical chemistry chip components conduction crystal crystal detectors detector Deutsches Museum device diode discovery École Polytechnique economic effect electron tubes energy engineers equipment established example experimental experiments field firms German germanium Göttingen heat Heisenberg important increased industrial research insulator integrated circuits invention investigated Kaiser Wilhelm layer lecture manufacturing materials ment metals microprocessor military Munich National natural NDRC nuclear organization OSRD patent Pauli Photo physicists Pohl Pohl's point-contact transistor possible problems processes production professor properties Purdue quantum mechanics radar radiation RadLab rays research laboratories Röntgen scientific scientists semiconductor Shockley Siemens silicon solid-state physics solids Sommerfeld staff structure surface technical Telephone temperatures Texas Instruments theoretical physics theory tion transistor University vacuum tubes voltage wave World