W.H. Legat scite author profile

Die Einwirkung von NaF und Na2SiF6 auf SiO2 und Natriumsilicate wurde untersucht. Das zugleich entstehende SiF4 beeinflußt den Reaktionsablauf, wie ein Vergleich der Versuche im offenen und geschlossenen System zeigt. Bei geringem SiF4‐Druck führen Umsetzungen von NaF oder Na2SiF6 mit einigen SiO2‐Modifikationen zu Natriumsilicaten, bei merklichen Drucken von SiF4 zu Cristobalit, Tridymit und auch zu T‐Quarz. Viele Natriumsilicate gehen mit NaF vorzugsweise in Na2SiO3 über. Na6Si8O19 entstand aus Na2SiO3, war aber nur mit Na2SiF6 statt NaF zu erhalten; dabei trat auch T‐Quarz auf. Die an das Vorhandensein gewisser Fremdionen gebundene Bildung von Tridymit ließ sich bei hoher Temperatur (1150°C) erreichen, wenn HF zusammen mit einem der Alkalifluoride (A = Na, K, Rb, Cs) zugegeben wurde. Die Menge des Zusatzes war entscheidend für die Größe der über eine chemische Transportreaktion entstehenden Tridymitkristalle. Die im eingesetzten T‐Quarz (Furka) enthaltenen Verunreinigungen reichen für die Bildung von Tridymit nicht aus.

show abstract

A silicon p-n junction transducer

Legat

Russell²

1964

View full text Add to dashboard Cite

Air-gap isolated microcircuits—Beam-lead devices

Rosvold

Legat

Holden

1968

IEEE Trans. Electron Devices

View full text Add to dashboard Cite

Physical Description of the Anisotropic Stress Effect in the Silicon P-N Junction Cantilever Transducer

Russell¹,

Legat²

1967

J. Electrochem. Soc.

View full text Add to dashboard Cite

A silicon p‐n junction device using the anisotropic stress effect has been constructed. The device exhibits a change in reverse leakage current on application of a bending force. The device consists of a narrow bar of silicon into which a sharp notch is cut electrolytically. On the opposite surface, a shallow p‐n junction is produced by diffusion. Sensitivity to bending is achieved when mechanical damage is produced at the surface of the shallow junction in a controlled fashion. The corresponding change in the forward and reverse characteristics of the device after scribing is described. Methods of testing the device and changes in operating characteristics are discussed. A theory of device operation is proposed. This theory presents a model of generation of dislocation loops from Frank‐Read sources produced during the plastic deformation phase. The dislocation loops, on application of stress, enter the depletion region of the junction creating a generation current according to the Sah‐Noyce‐Shockley generation‐recombination theory. A mathematical model of the device is developed. Operating characteristics are then compared with the mathematical model. The sensitizing operation produces noise sources within the device. The spectrum of these sources is described and the intensity is compared to device sensitivity during the scribing operation. Device noise is reduced by a decrease in the emitter perimeter. Operating characteristics of the device are discussed. These include linearity of the stress‐ leakage current curve, change of sensitivity with voltage, deflection with applied force, a‐c impedance, junction capacity, mechanical stiffness, effective minority carrier lifetime, and fundamental vibration frequency.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

W.H. Legat

A silicon p−n junction transducer

Zum Modifikationswechsel von SiO₂ in Gegenwart von Alkali‐Fluoriden und ‐Silicaten

A silicon p-n junction transducer

Air-gap isolated microcircuits—Beam-lead devices

Physical Description of the Anisotropic Stress Effect in the Silicon P-N Junction Cantilever Transducer

Contact Info

Product

Resources

About

W.H. Legat

A silicon p−n junction transducer

Zum Modifikationswechsel von SiO2 in Gegenwart von Alkali‐Fluoriden und ‐Silicaten

A silicon p-n junction transducer

Air-gap isolated microcircuits—Beam-lead devices

Physical Description of the Anisotropic Stress Effect in the Silicon P-N Junction Cantilever Transducer

Contact Info

Product

Resources

About

Zum Modifikationswechsel von SiO₂ in Gegenwart von Alkali‐Fluoriden und ‐Silicaten