| Author(s) | SAWYER J
|
|---|
| Title | A ICOSAHEDRAL 6 DIMENSIONAL VALENCE-BOND ORDER IN SUPERCONDUCTIVE CRYSTALS
|
|---|
| Source | APPLIED SUPERCONDUCTIVITY 1 (7-9): 883-900
|
|---|
| Date | 1993 JUL-SEP
|
|---|
| Type | Journal : Article
|
|---|
| LCR: 1 NCR: 46 LCS: 0 GCS: 0
| | Comment |
|
|---|
| Address |
|
|---|
| Reprint | SAWYER, J, SIX DIMENSION DESIGN,482 ELMWOOD AVE,BUFFALO,NY 14222.
|
|---|
| Abstract | This theory follows the natural geometry of the electron hybridized orbitals sp3 tetrahedron, d2sp3 octohedron through the higher level six dimensional geometry of R. Buckminster Fuller in the Periodic Table of the Elements. All the new superconductive compounds are in the tetrahedral octohedral atomic orbital symmetry. The new C60K3 Buckminsterfullerene Potassium compound has the five fold icosahedral atomic orbital symmetry necessary for superconductivity. All the high Tc superconductive compounds are in the Perovskite family of minerals have either Barium or Strontium at the centroid of the unit cell, represented as icosahedral symmetry in the ''Six Dimensional Periodic Table of the Elements''. All the superconductive compounds go through a phase transition. The Barium atom electrons in the Y1Ba2Cu3O7 superconductive crystal and the Buckminsterfullerene molecule, are aids to a greater understanding of superconductivity.
|
|---|
| CR |
ANIL K, 1987, PHYS TODAY, P17
BUERGER MJ, GEOMETRICAL NATURE O, P30
CARA RJ, 1990, SUPERCONDUCTORS 1 2, P42
CHIEN CL, 1988, A I PHYSICS C SUPERC
CHIEN CL, 1988, APR PHYS C SUPERC
CLINTON J, 1971, NASA CR1735
CONSIDINE DMM, 1976, VANNOSTRANDS SCI ENC, P504
CURL RF, 1991, FULLERENES, P54
DEER WA, 1972, PEROVSKITE, P48
DORFMAN YG, 1961, DIAMAGNETISM CHEM BO
EINSTEIN A, 1935, PHYS REV, V47, P777
ESSMAN U, 1971, MAGNETIC STRUCTURE S, P75
FAGAN PJ, 1992, BUILDING MOL CRYSTAL, P48
FULLER R, 1979, SYNERGETICS, V2, P213
FULLER R, 1979, SYNERGETICS, V2, P349
GANGULY P, 1984, J SOLID STATE CHEM, V53, P193
HAZEN RM, 1988, PEROVSKITE, P74
HEISENBERG W, 1992, HEISENBERG UNCERTAIN, P106
HEZEN RM, 1988, PEROVSKITE, P74
INOUE S, 1977, BIOCRYSTALS
JORGENSEN J, 1988, PHYSICS C SUPERCONDU
JORGENSEN JD, 1987, PHYS REV LETT, V58, P1024
KHURANA A, 1987, SUPERCONDUCTIVITY AB, P17
KOZLOWSKI AI, 1988, PHYSICS C SUPERCONDU
KOZLOWSKI, 1988, AI PHYS C SUPERCONDU
KVAM EW, 1991, J MOL STRUCT THEOCHE, V231, P335
KVAM EW, 1991, J MOL STRUCT THEOCHE, V231, P335
KVAM EW, 1991, PHYSICS C
LANGENBERG DN, 1966, JOSEPHSON EFFECT, P30
MORRISON RT, 1983, ORGANIC CHEM, P6
PAULING L, 1960, NATURE CHEM BOND, P425
PAULING L, 1964, ARCH MOL, P33
PENNISI E, 1991, SCIENCE NEWS, V140, P120
PUGH A, 1976, INTRO TENSEGRITY, P38
RAO CNR, 1986, NEW DIRECTION SOLID
RAO CNR, 1986, NEW DIRECTIONS SOLID
ROBINSON AL, 1987, OXYGEN KEY NEW SUPER, V236, P1065
ROBINSON AL, 1987, SCIENCE, V236, P1065
ROSINSKY MD, 1984, GEOMETRY LIFE, P39
ROSSEINSKY MJ, 1992, NATURE, V356, P416
ROUVRAY DH, 1986, PREDICTING CHEM TOPO, P40
SHENG ZZ, 1990, AIP C P, V219, P210
SORENSEN AH, 1989, CHANNELING ELECTRONS, P96
TANIGAKI K, 1992, NATURE, V356, P419
VERMA AR, 1966, POLYMORPHISM POLYTYP, P2
ZUMDAHL SS, 1989, HYBRIDIZATION LOCALI, P383
|
|---|
|