Thermo-mechanical probe storage at Mbps single-probe data rates and Tbit in(-2) densities

Cannara RJ; Gotsmann B; Knoll A; Durig U

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Thermo-mechanical probe storage at Mbps single-probe data rates and Tbit in(-2) densities

机译：以Mbps单探针数据速率和Tbit in（-2）密度存储的热机械探针

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Future applications for parallel probes, including probe-based data storage and probe lithography, demand that probe technologies achieve patterning rates in the megahertz per probe range at feature sizes below 30 nm, i.e. similar to 1 Tbit in(-2). If thermo-mechanical indentation of polymers is employed, some uncertainty remains as to whether the physics governing the indentation kinetics at these short timescales permits the fast indentation processes required. We demonstrate the feasibility of using polymer media for thermo-mechanical probe storage or lithography, at sliding speeds of 15 mm s(-1) and sub-microsecond indentation times, which fall into this previously untapped regime.

机译：并行探针的未来应用，包括基于探针的数据存储和探针光刻，要求探针技术在特征尺寸小于30 nm时达到每个探针范围兆赫兹的图案化速率，即类似于1 Tbit in（-2）。如果采用聚合物的热机械压痕，则在这些短时间尺度上控制压痕动力学的物理原理是否允许所需的快速压痕过程仍存在一些不确定性。我们证明了使用聚合物介质进行热机械探针存储或光刻的可行性，其滑动速度为15 mm s（-1）和亚微秒的压痕时间，属于先前未开发的范围。

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《Nanotechnology》 |2008年第39期|共6页
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Cannara RJ; Gotsmann B; Knoll A; Durig U;
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1. Thermo-mechanical probe storage at Mbps single-probe data rates and Tbit in(-2) densities [J] . Cannara RJ, Gotsmann B, Knoll A, Nanotechnology . 2008,第39期

机译：以Mbps单探针数据速率和Tbit in（-2）密度存储的热机械探针
2. Multi Tbit/in(2) Storage Densities with Thermomechanical Probes [J] . Wiesmann D, Rawlings C, Vecchione R, Nano letters . 2009,第9期

机译：使用热机械探针的多Tbit / in（2）存储密度
3. Metallized slit-shaped pyramidal Si probe with extremely high resolution for 1.5-Tbit/in~(2) density near-field optical storage [J] . Takashi Yatsui, Wataru Nomura, Motoichi Ohtsu Journal of Nanophotonics . 2007,第Null期

机译：具有极高分辨率的金属化狭缝金字塔形Si探针，用于1.5 Tbit / in〜（2）密度近场光学存储
4. Ultra-High Resolution Photonic Crystal Nano-Probe for High Density Optical Data Storage, Near Field Microscopy and Nanolithography Systems [C] . Ahmed Sharkawy, Greg Bermnhan, Shouyuan Shi, Photonic Crystal Materials and Devices IV . 2006

机译：用于高密度光学数据存储，近场显微镜和纳米光刻系统的超高分辨率光子晶体纳米探针
5. Micromagnetic design, analysis, and optimization of 1 Tbit/square inch MFM-based scanning-probe storage device. [D] . El-Sayed, Rany Tawfik. 2004

机译：1 Tbit /平方英寸基于MFM的扫描探针存储设备的微磁设计，分析和优化。
6. Actual information storage with a recording density of 4 Tbit∕in.2 in a ferroelectric recording medium [O] . Kenkou Tanaka, Yasuo Cho -1

机译：实际信息存储在铁电记录介质中记录密度为4 Tbit / in.2
7. Nanopencil as a wear-tolerant probe for ultrahigh density data storage [O] . Tayebi Noureddine, Narui Yoshie, Chen Robert J., 2008

机译：Nanopencil作为用于超高密度数据存储的耐磨探针
8. An Analytical Description of the Free-Molecule Cylindrical-Electrostatic Single-Probe and Double-Probe Measurements [R] . Peterson, E. W., Talbot, L. 1969

机译：自由分子圆柱 - 静电单探针和双探针测量的分析描述

Thermo-mechanical probe storage at Mbps single-probe data rates and Tbit in(-2) densities

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