Dynamic information storage or retrieval – Specific detail of information handling portion of system – Radiation beam modification of or by storage medium
Reexamination Certificate
2001-03-16
2004-09-14
Young, W. R. (Department: 2652)
Dynamic information storage or retrieval
Specific detail of information handling portion of system
Radiation beam modification of or by storage medium
C369S126000, C073S001390
Reexamination Certificate
active
06791931
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to accelerometers, and more particularly to accelerometers based on field emitter technology.
BACKGROUND OF THE INVENTION
For decades, researchers have been trying to increase the storage density and reduce the cost/storage in information storage devices, such as magnetic hard-drives, optical drives, and DRAM. However, it has become increasingly difficult to squeeze more information into the storage devices. Moreover, conventional technologies to make those devices may be approaching fundamental limits on storage density.
Many scientists have proposed alternative approaches to increase the storage density. One approach is based on Scanned Probe Microscopy (SPM) technologies. Typically, in such an approach, a probe is positioned extremely close to a storage medium. For example, in one implementation of Atomic Force Microscopy, the probe physically touches the medium; in Scanning Tunnelling Microscopy (STM), the probe is within a few nanometers of the medium to ensure that the probe is within tunneling range of the medium. It is difficult to inexpensively build a storage system with a probe in contact with or in such extremely close proximity to the medium without, eventually, damaging or effacing the surface of the medium or the probe. Moreover, in STM, the nanometer spacing must be precisely controlled. This is a difficult task. Some researchers have found methods to eliminate the need for such extremely close proximity. One technique is based on Near-Field Scanning Optical Microscopy. However, this technique has limited lateral resolution and bandwidth. Other techniques are based on non-contact Scanning Force Microscopy, which typically suffers from poor resolution and poor signal to noise ratio.
Even if one has increased the storage density, one still has to overcome another major hurdle, which is the time required to access the information. The storage device's utility is limited if it takes a long time to retrieve the stored information. In other words, in addition to high storage density, one must find a way to quickly access the information.
It should be apparent from the foregoing that there is still a need for a storage device that is based on a non-conventional approach, with significantly increased storage density, and low cost/storage. Additionally, the storage device preferably should have fast access times and high data rates. Furthermore, the storage device should preferably eliminate the requirement for extremely close proximity between the probe and storage medium.
In addition, there is a desire for a storage device system which can accurately and inexpensively detect shock from various levels and indicate the detected shock to the storage device system in such a manner that the storage device system can respond to the detected shock, such as by temporarily halting reading/writing operations or performing a power down operation. For example, in any storage device having a read/write subsystem that is moveable relative to a storage medium, it is highly undesirable to write data in the wrong location due to the read/write subsystem moving relative to the storage medium due to a shock to the storage device which can result in overwriting or destroying data.
SUMMARY OF THE INVENTION
The present invention provides an accelerometer including a field emitter to generate an electron beam current and a medium. An effect is generated when the electron beam current bombards the medium. The magnitude of the effect is affected by a physical impact imparting an amount of energy to the accelerometer to cause a relative movement between the field emitter and the medium. The amount of energy imparted to the accelerometer by the physical impact is determined by measuring the magnitude of the effect.
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Battaglia M. V.
Hewlett--Packard Development Company, L.P.
Young W. R.
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