F. J. Ciak scite author profile

F. J. Ciak

5Publications

4Citation Statements Received

1Citation Statement Given

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Current-Access Magnetic Bubble Circuits

Bobeck¹,

Blank²,

Butherus³

et al. 1979

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Experimental and theoretical results from our work on current‐access technology show promise for high‐density, ∼107 bits/cm2, and high‐frequency, f > 1 MHz, bubble devices. We have operated current‐access devices where the bubble‐driving fields derive from two patterned conducting sheets instead of orthogonal field coils. Margins for generation, propagation, and transfer were studied on 8‐μm periods at 1 MHz. These 8‐μm period structures typically required 1.5 mA/μm per conducting sheet and dissipated 14 μW/bit. Single conducting‐sheet, current‐access circuitry also propagates bubbles but offers less design flexibility. We present design criteria, magnetic field equations, and design curves. Implementation of these devices required new magnetic materials with quality factor Q comparable to available garnets, yet higher mobility and lower dynamic coercivity. Of the three systems, (YLuSmCa)3(FeGe)5O12, (LaLuSmCa)3(FeGe)5O12, and (LaLuSm)3(FeGa)5O12, the last appears best suited; some room temperature characteristics of the composition La0.6Lu2.1Sm0.3Ga0.9Fe4.1O12 are 4πMs = 470G, μ = 750 cmS−1‐Oe−1, d = 1.6 μm, and ΔHc = 2 Oe across a bubble for the threshold of motion. Necessary improvements in processing were made with a radio‐frequency, chlorine‐containing plasma etch which produced metal patterns identical to those of the etch mask. We anticipate that current‐access devices, when compared to conventional field‐access devices, will achieve higher data rates, lower power consumption per bit, and greater storage densities with existing processing technologies.

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Magnetoresistance Sensors for Garnet Bubble Domains

Strauss¹,

Shumate²,

Ciak³

1972

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Characteristics of a Detection-Propagation Structure for Bubble-Domain Devices

Strauss¹,

Bobeck²,

Ciak³

et al. 1973

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Magnetic bubble dual-in-line package (DIP) functional and reliability testing

Kowalchuk¹,

Bobeck²,

Butherus³

et al. 1976

IEEE Trans. Magn.

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Abstract: Recent advances in the design of dual-conductor bubble devices (invited)

Bobeck¹,

Biolsi²,

Ciak³

et al. 1981

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F. J. Ciak

Current-Access Magnetic Bubble Circuits

Magnetoresistance Sensors for Garnet Bubble Domains

Characteristics of a Detection-Propagation Structure for Bubble-Domain Devices

Magnetic bubble dual-in-line package (DIP) functional and reliability testing

Abstract: Recent advances in the design of dual-conductor bubble devices (invited)

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