![Ferroelectrics Literature Index [electronic resource] /](/search/themes/bootstrap3/images/libros.png)
Ferroelectrics Literature Index [electronic resource] /
Research on ferroelectricity and ferroelectric materials started in 1920 with the discovery by Valasek that the variation of spontaneous polarization in Rochelle salt with sign and magnitude of an applied electric field traced a complete and reproducible hysteresis loop. Activity in the field was sporadic until 1935, when Busch and co-workers announced the observation of similar behavior in potassium dihydrogen phosphate and related compounds. Progress thereafter continued at a modest level with the undertaking of some theoretical as well as further experimental studies. In 1944, von Hippel and co-workers discovered ferroelectricity in barium titanate. The technological importance of ceramic barium titanate and other perovskites led to an upsurge of interest, with many new ferroelectrics being identified in the following decade. By 1967, about 2000 papers on various aspects of ferroelectricity had been published. The bulk of this widely dispersed literature was concerned with the experimental measurement of dielectric, crystallographic, thermal, electromechanical, elastic, optical, and magnetic properties. A critical and excellently organized cpmpilation based on these data appeared in 1969 with the publica tion of Landolt-Bornstein, Volume 111/3. This superb tabulation gave instant access to the results in the literature on nearly 450 pure substances and solid solutions of ferroelectric and antiferroelectric materials. Continuing interest in ferroelectrics, spurred by the growing importance of electrooptic crystals, resulted in the publication of almost as many additional papers by the end of 1969 as had been surveyed in Landolt-Bornstein.
Saved in:
| Main Authors: | , , |
|---|---|
| Format: | Texto biblioteca |
| Language: | eng |
| Published: |
Boston, MA : Springer US,
1974
|
| Subjects: | Physics., Solid state physics., Spectroscopy., Microscopy., Solid State Physics., Spectroscopy and Microscopy., |
| Online Access: | http://dx.doi.org/10.1007/978-1-4684-6210-4 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| id |
KOHA-OAI-TEST:187079 |
|---|---|
| record_format |
koha |
| institution |
COLPOS |
| collection |
Koha |
| country |
México |
| countrycode |
MX |
| component |
Bibliográfico |
| access |
En linea En linea |
| databasecode |
cat-colpos |
| tag |
biblioteca |
| region |
America del Norte |
| libraryname |
Departamento de documentación y biblioteca de COLPOS |
| language |
eng |
| topic |
Physics. Solid state physics. Spectroscopy. Microscopy. Physics. Solid State Physics. Spectroscopy and Microscopy. Physics. Solid state physics. Spectroscopy. Microscopy. Physics. Solid State Physics. Spectroscopy and Microscopy. |
| spellingShingle |
Physics. Solid state physics. Spectroscopy. Microscopy. Physics. Solid State Physics. Spectroscopy and Microscopy. Physics. Solid state physics. Spectroscopy. Microscopy. Physics. Solid State Physics. Spectroscopy and Microscopy. Connolly, T. F. editor. Hawkins, Donald T. editor. SpringerLink (Online service) Ferroelectrics Literature Index [electronic resource] / |
| description |
Research on ferroelectricity and ferroelectric materials started in 1920 with the discovery by Valasek that the variation of spontaneous polarization in Rochelle salt with sign and magnitude of an applied electric field traced a complete and reproducible hysteresis loop. Activity in the field was sporadic until 1935, when Busch and co-workers announced the observation of similar behavior in potassium dihydrogen phosphate and related compounds. Progress thereafter continued at a modest level with the undertaking of some theoretical as well as further experimental studies. In 1944, von Hippel and co-workers discovered ferroelectricity in barium titanate. The technological importance of ceramic barium titanate and other perovskites led to an upsurge of interest, with many new ferroelectrics being identified in the following decade. By 1967, about 2000 papers on various aspects of ferroelectricity had been published. The bulk of this widely dispersed literature was concerned with the experimental measurement of dielectric, crystallographic, thermal, electromechanical, elastic, optical, and magnetic properties. A critical and excellently organized cpmpilation based on these data appeared in 1969 with the publica tion of Landolt-Bornstein, Volume 111/3. This superb tabulation gave instant access to the results in the literature on nearly 450 pure substances and solid solutions of ferroelectric and antiferroelectric materials. Continuing interest in ferroelectrics, spurred by the growing importance of electrooptic crystals, resulted in the publication of almost as many additional papers by the end of 1969 as had been surveyed in Landolt-Bornstein. |
| format |
Texto |
| topic_facet |
Physics. Solid state physics. Spectroscopy. Microscopy. Physics. Solid State Physics. Spectroscopy and Microscopy. |
| author |
Connolly, T. F. editor. Hawkins, Donald T. editor. SpringerLink (Online service) |
| author_facet |
Connolly, T. F. editor. Hawkins, Donald T. editor. SpringerLink (Online service) |
| author_sort |
Connolly, T. F. editor. |
| title |
Ferroelectrics Literature Index [electronic resource] / |
| title_short |
Ferroelectrics Literature Index [electronic resource] / |
| title_full |
Ferroelectrics Literature Index [electronic resource] / |
| title_fullStr |
Ferroelectrics Literature Index [electronic resource] / |
| title_full_unstemmed |
Ferroelectrics Literature Index [electronic resource] / |
| title_sort |
ferroelectrics literature index [electronic resource] / |
| publisher |
Boston, MA : Springer US, |
| publishDate |
1974 |
| url |
http://dx.doi.org/10.1007/978-1-4684-6210-4 |
| work_keys_str_mv |
AT connollytfeditor ferroelectricsliteratureindexelectronicresource AT hawkinsdonaldteditor ferroelectricsliteratureindexelectronicresource AT springerlinkonlineservice ferroelectricsliteratureindexelectronicresource |
| _version_ |
1756265598048796672 |
| spelling |
KOHA-OAI-TEST:1870792018-07-30T23:09:48ZFerroelectrics Literature Index [electronic resource] / Connolly, T. F. editor. Hawkins, Donald T. editor. SpringerLink (Online service) textBoston, MA : Springer US,1974.engResearch on ferroelectricity and ferroelectric materials started in 1920 with the discovery by Valasek that the variation of spontaneous polarization in Rochelle salt with sign and magnitude of an applied electric field traced a complete and reproducible hysteresis loop. Activity in the field was sporadic until 1935, when Busch and co-workers announced the observation of similar behavior in potassium dihydrogen phosphate and related compounds. Progress thereafter continued at a modest level with the undertaking of some theoretical as well as further experimental studies. In 1944, von Hippel and co-workers discovered ferroelectricity in barium titanate. The technological importance of ceramic barium titanate and other perovskites led to an upsurge of interest, with many new ferroelectrics being identified in the following decade. By 1967, about 2000 papers on various aspects of ferroelectricity had been published. The bulk of this widely dispersed literature was concerned with the experimental measurement of dielectric, crystallographic, thermal, electromechanical, elastic, optical, and magnetic properties. A critical and excellently organized cpmpilation based on these data appeared in 1969 with the publica tion of Landolt-Bornstein, Volume 111/3. This superb tabulation gave instant access to the results in the literature on nearly 450 pure substances and solid solutions of ferroelectric and antiferroelectric materials. Continuing interest in ferroelectrics, spurred by the growing importance of electrooptic crystals, resulted in the publication of almost as many additional papers by the end of 1969 as had been surveyed in Landolt-Bornstein.1 Bibliographies, Data Compilations, Books, and Conferences -- 2 Reviews -- 3 Theory -- 4 Barium Titanate -- 5 Lead Titanate -- 6 Strontium Titanate -- 7 Lead Zirconate -- 8 Other Perovskites -- 9 Mixed Titanates-Zirconates (including PZT, PLZT) -- 10 Tungsten Trioxide and Tungstates -- 11 Lithium Niobate -- 12 Lithium Tantalate -- 13 Tungsten Bronze Type and Layer Structure Oxides -- 14 Boracites -- 15 Antimony Sulfoiodide and Related Compounds -- 16 Nitrates and Nitrites -- 17 Potassium Dihydrogen Phosphate (KDP) and Related Phosphates -- 18 Potassium Dihydrogen Arsenate (KDA) and Related Arsenates -- 19 Ammonium Sulfate, Ammonium Fluoberyllate, and Related Compounds -- 20 Alums -- 21 Guanidinium Aluminum Sulfate Hexahydrate (GASH) and Related Compounds -- 22 Selenites and Selenates -- 23 Colemanite -- 24 Potassium Ferrocyanide -- 25 Thiourea -- 26 Formates and Propionates -- 27 Triglycine Sulfate (TGS) and Related Compounds -- 28 Rochelle Salt and Related Compounds -- 29 Tartrates -- 30 Molybdates -- 31 Hydrogen Halides -- 32 Lithium Hydrazinium Sulfate and Fluoberyllate -- 33 Cesium Lead Trichloride, Potassium Manganese Trifluoride, and Related Halides -- 34 Ice -- 35 Lead Germanate and Bismuth Germanate -- 36 Other Materials -- 37 Device Applications of Ferroelectrics -- Permuted Title Index -- Author—Title Index.Research on ferroelectricity and ferroelectric materials started in 1920 with the discovery by Valasek that the variation of spontaneous polarization in Rochelle salt with sign and magnitude of an applied electric field traced a complete and reproducible hysteresis loop. Activity in the field was sporadic until 1935, when Busch and co-workers announced the observation of similar behavior in potassium dihydrogen phosphate and related compounds. Progress thereafter continued at a modest level with the undertaking of some theoretical as well as further experimental studies. In 1944, von Hippel and co-workers discovered ferroelectricity in barium titanate. The technological importance of ceramic barium titanate and other perovskites led to an upsurge of interest, with many new ferroelectrics being identified in the following decade. By 1967, about 2000 papers on various aspects of ferroelectricity had been published. The bulk of this widely dispersed literature was concerned with the experimental measurement of dielectric, crystallographic, thermal, electromechanical, elastic, optical, and magnetic properties. A critical and excellently organized cpmpilation based on these data appeared in 1969 with the publica tion of Landolt-Bornstein, Volume 111/3. This superb tabulation gave instant access to the results in the literature on nearly 450 pure substances and solid solutions of ferroelectric and antiferroelectric materials. Continuing interest in ferroelectrics, spurred by the growing importance of electrooptic crystals, resulted in the publication of almost as many additional papers by the end of 1969 as had been surveyed in Landolt-Bornstein.Physics.Solid state physics.Spectroscopy.Microscopy.Physics.Solid State Physics.Spectroscopy and Microscopy.Springer eBookshttp://dx.doi.org/10.1007/978-1-4684-6210-4URN:ISBN:9781468462104 |