Gallery of Images

		Andreas Heinrich    [ Get permission to re-use ]
		Au Two-Atom Interaction    [ Get permission to re-use ]
		Bipolar transistor: Uses 80 percent less power    [ Get permission to re-use ]
		Blue Gene/L DD1 #1    [ Get permission to re-use ]
		Blue Gene/L DD1 #2    [ Get permission to re-use ]
		Blue Gene/L DD2 #1    [ Get permission to re-use ]
		Blue Gene/L DD2 #2    [ Get permission to re-use ]
		Blue Gene/L DD2 #3    [ Get permission to re-use ]
		Blue Gene/L prototype and Bill Pulleyblank    [ Get permission to re-use ]
		Blue Gene/L prototype and Bill Pulleyblank, Shawn Hall    [ Get permission to re-use ]
		Blue Gene/L prototype and Shawn Hall #2    [ Get permission to re-use ]
		Blue Gene/L simulates biological membranes #1    [ Get permission to re-use ]
		Blue Gene/L simulates biological membranes #2    [ Get permission to re-use ]
		Blue Gene/L simulates biological membranes #3    [ Get permission to re-use ]
		Blue Gene/L simulates biological membranes #4    [ Get permission to re-use ]
		Blue Gene/L simulates biological membranes #5    [ Get permission to re-use ]
		Blue Gene/L simulates biological membranes #6    [ Get permission to re-use ]
		Blue Gene/L simulates biological membranes #7    [ Get permission to re-use ]
		Blue Gene/L simulates hairpin protein folding #1    [ Get permission to re-use ]
		Blue Gene/L simulates hairpin protein folding #2    [ Get permission to re-use ]
		Blue Gene/L supercomputer #1    [ Get permission to re-use ]
		Blue Gene/L supercomputer #2    [ Get permission to re-use ]
		Blue Gene/L supercomputer #3    [ Get permission to re-use ]
		Blue Gene/L supercomputer #4    [ Get permission to re-use ]
		Blue Gene/L supercomputer #5    [ Get permission to re-use ]
		Blue Gene/L supercomputer #6    [ Get permission to re-use ]
		Blue Gene: A vision of the future #1    [ Get permission to re-use ]
		Blue Gene: A vision of the future #2    [ Get permission to re-use ]
		Blue Gene: G Protein-Coupled Receptors (GPCR)    [ Get permission to re-use ]
		Blue Gene: Lipids and cell division and fusion    [ Get permission to re-use ]
		Blue Gene: Omega-3 fatty acids and cholesterol    [ Get permission to re-use ]
		Carbon nanotubes: Inter-molecular logic circuit #5    [ Get permission to re-use ]
		Carbon nanotubes: Inter-molecular logic circuit #6    [ Get permission to re-use ]
		Carbon nanotube: Building transistors #1    [ Get permission to re-use ]
		Carbon nanotube: Building transistors #10    [ Get permission to re-use ]
		Carbon nanotube: Building transistors #11    [ Get permission to re-use ]
		Carbon nanotube: Building transistors #12    [ Get permission to re-use ]
		Carbon nanotube: Building transistors #2    [ Get permission to re-use ]
		Carbon nanotube: Building transistors #3    [ Get permission to re-use ]
		Carbon nanotube: Building transistors #4    [ Get permission to re-use ]
		Carbon nanotube: Building transistors #5    [ Get permission to re-use ]
		Carbon nanotube: Building transistors #6    [ Get permission to re-use ]
		Carbon nanotube: Building transistors #7    [ Get permission to re-use ]
		Carbon nanotube: Building transistors #8    [ Get permission to re-use ]
		Carbon nanotube: Building transistors #9    [ Get permission to re-use ]
		Carbon nanotube: Light emissions #1    [ Get permission to re-use ]
		Carbon nanotube: Light emissions #2    [ Get permission to re-use ]
		Carbon nanotube: Light emissions #3    [ Get permission to re-use ]
		Christopher Lutz    [ Get permission to re-use ]
		Double-Gate Transistor #1    [ Get permission to re-use ]
		Double-Gate Transistor #2    [ Get permission to re-use ]
		Excimer Laser    [ Get permission to re-use ]
		GMR    [ Get permission to re-use ]
		GMR: IBM's data-density world record    [ Get permission to re-use ]
		GMR: Pioneering GMR heads    [ Get permission to re-use ]
		GMR: Stuart Parkin and sputtering aparatus    [ Get permission to re-use ]
		Haifa Research Lab seminar    [ Get permission to re-use ]
		Health monitor    [ Get permission to re-use ]
		Hugh Pearson and Mouse Adapter Circuit Board    [ Get permission to re-use ]
		Hugh Pearson of Montrose Secam and Adapter    [ Get permission to re-use ]
		Hugh Pearson of Montrose Secam and Adapter #2    [ Get permission to re-use ]
		IBM Research introduces a new assistive mouse adapter to provide people who suffer from hand tremors to have completely normal use of a personal computer.    [ Get permission to re-use ]
		Image shows the test results of someone with a hand tremor using a normal mouse    [ Get permission to re-use ]
		Image shows the test results of someone with a hand tremor using the assistive mouse adapter    [ Get permission to re-use ]
		James Cosgrave and Hugh Pearson, Montrose Secam    [ Get permission to re-use ]
		James Cosgrave, Montrose Secam    [ Get permission to re-use ]
		Jay Gupta    [ Get permission to re-use ]
		MetaPad and Ken Ocheltree, Bob Ohlya #1    [ Get permission to re-use ]
		MetaPad and Ken Ocheltree, Bob Ohlya #2    [ Get permission to re-use ]
		Metapad #1    [ Get permission to re-use ]
		Metapad #2    [ Get permission to re-use ]
		Metapad #3    [ Get permission to re-use ]
		Metapad #4    [ Get permission to re-use ]
		Metapad #5    [ Get permission to re-use ]
		Metapad #6    [ Get permission to re-use ]
		Metapad #7    [ Get permission to re-use ]
		Metapad #8    [ Get permission to re-use ]
		Millipede #1    [ Get permission to re-use ]
		Millipede #2    [ Get permission to re-use ]
		Millipede #3    [ Get permission to re-use ]
		Millipede #4    [ Get permission to re-use ]
		Millipede #5    [ Get permission to re-use ]
		Millipede #6    [ Get permission to re-use ]
		Millipede #7    [ Get permission to re-use ]
		Millipede #8    [ Get permission to re-use ]
		Millipede #9    [ Get permission to re-use ]
		Molecular cascade: Three-input sorter #1    [ Get permission to re-use ]
		Molecular cascade: Three-input sorter #2    [ Get permission to re-use ]
		Molecular cascade: Three-input sorter #3    [ Get permission to re-use ]
		Molecular cascade: Three-input sorter #4    [ Get permission to re-use ]
		Molecular cascade: Three-input sorter #5    [ Get permission to re-use ]
		Molecular cascade: Two-input sorter animation    [ Get permission to re-use ]
		Molecular cascade: Two-input sorter #1    [ Get permission to re-use ]
		Molecular cascade: Two-input sorter #2    [ Get permission to re-use ]
		Molecular cascade: Two-input sorter #3    [ Get permission to re-use ]
		Molecular cascade: Two-input sorter #4    [ Get permission to re-use ]
		Molecular Dyanamics: Ductile failure #1    [ Get permission to re-use ]
		Molecular Dyanamics: Ductile failure #2    [ Get permission to re-use ]
		Molecular Dyanamics: Ductile failure #3    [ Get permission to re-use ]
		Molecular Dyanamics: Ductile failure #4    [ Get permission to re-use ]
		Molecular Dyanamics: Ductile failure #5    [ Get permission to re-use ]
		Molecular Dyanamics: Ductile failure #6    [ Get permission to re-use ]
		Molecular Dyanamics: Ductile failure #7    [ Get permission to re-use ]
		Molecular Dynamics: Supersonic crack propagation #1    [ Get permission to re-use ]
		Molecular Dynamics: Supersonic crack propagation #2    [ Get permission to re-use ]
		Molecular Dynamics: Supersonic crack propagation #3    [ Get permission to re-use ]
		Molecular Dynamics: Supersonic crack propagation #4    [ Get permission to re-use ]
		Molecular Dynamics: Supersonic crack propagation #5    [ Get permission to re-use ]
		Molecular Dynamics: Supersonic crack propagation #6    [ Get permission to re-use ]
		Molecular Dynamics: Supersonic crack propagation #7    [ Get permission to re-use ]
		Molecular self-assembly: Magnetic and semiconducting nanoparticles #1    [ Get permission to re-use ]
		Molecular self-assembly: Magnetic and semiconducting nanoparticles #2    [ Get permission to re-use ]
		Molecular self-assembly: Magnetic and semiconducting nanoparticles #3    [ Get permission to re-use ]
		Molecular self-assembly: Magnetic and semiconducting nanoparticles #4    [ Get permission to re-use ]
		Molecular self-assembly: Nanocrystal memory device    [ Get permission to re-use ]
		Molecule cascade team    [ Get permission to re-use ]
		Molecule cascade: 3-input sorter #1    [ Get permission to re-use ]
		Molecule cascade: 3-input sorter #2    [ Get permission to re-use ]
		Molecule cascade: 3-input sorter #3    [ Get permission to re-use ]
		Molecule cascade: 3-input sorter #4    [ Get permission to re-use ]
		Molecule cascade: AND Gate #1    [ Get permission to re-use ]
		Molecule cascade: AND Gate #2    [ Get permission to re-use ]
		Molecule cascade: AND Gate #3    [ Get permission to re-use ]
		Molecule cascade: Chevron basic operation #1    [ Get permission to re-use ]
		Molecule cascade: Chevron basic operation #2    [ Get permission to re-use ]
		Molecule cascade: Chevron with helper molecules    [ Get permission to re-use ]
		Molecule cascade: Linked-chevron    [ Get permission to re-use ]
		Molecule cascade: Linked-chevron #2    [ Get permission to re-use ]
		Molecule cascade: Logical AND gate    [ Get permission to re-use ]
		Mouse Adapter: James L. Levine #1    [ Get permission to re-use ]
		Mouse Adapter: James L. Levine #2    [ Get permission to re-use ]
		Mouse Adapter: James L. Levine #3    [ Get permission to re-use ]
		Mouse Adapter: James L. Levine #4    [ Get permission to re-use ]
		Mouse Adapter: James L. Levine #5    [ Get permission to re-use ]
		Mouse Adapter: James L. Levine #6    [ Get permission to re-use ]
		Mouse Adapter: James L. Levine #7    [ Get permission to re-use ]
		MRAM chips #1    [ Get permission to re-use ]
		MRAM chips #2    [ Get permission to re-use ]
		MRAM chips #3    [ Get permission to re-use ]
		MRAM chips #4    [ Get permission to re-use ]
		MRAM: enlargement of active layers    [ Get permission to re-use ]
		MRAM: magnetic tunnel junction    [ Get permission to re-use ]
		MRAM: Storage device layers    [ Get permission to re-use ]
		MRFM research team    [ Get permission to re-use ]
		MRFM: Cantilever    [ Get permission to re-use ]
		MRFM: How it works    [ Get permission to re-use ]
		MRFM: magnetic tip of cantilever    [ Get permission to re-use ]
		Quantum computing #1    [ Get permission to re-use ]
		Quantum computing #2    [ Get permission to re-use ]
		Quantum computing #3    [ Get permission to re-use ]
		Quantum computing #4    [ Get permission to re-use ]
		Quantum mirage and Don Eigler    [ Get permission to re-use ]
		Quantum mirage #1    [ Get permission to re-use ]
		Quantum mirage #2    [ Get permission to re-use ]
		Quantum mirage #3    [ Get permission to re-use ]
		Quantum mirage #4    [ Get permission to re-use ]
		Quantum mirage #5    [ Get permission to re-use ]
		Shawn Hall with Blue Gene/L prototype    [ Get permission to re-use ]
		Silicon nanophotonic state #1    [ Get permission to re-use ]
		Silicon nanophotonic state #2    [ Get permission to re-use ]
		Silicon nanophotonic state #3    [ Get permission to re-use ]
		Silicon nanophotonic state #4    [ Get permission to re-use ]
		Silicon nanophotonic #1    [ Get permission to re-use ]
		Silicon nanophotonic #2    [ Get permission to re-use ]
		Silicon nanophotonic #3    [ Get permission to re-use ]
		Silicon nanophotonic #4    [ Get permission to re-use ]
		Spintronics #1    [ Get permission to re-use ]
		Spintronics #2    [ Get permission to re-use ]
		Spintronics #3    [ Get permission to re-use ]
		Spintronics: conceptual representation of magnetic orientation    [ Get permission to re-use ]
		Spintronics: Spin flip spectroscopy    [ Get permission to re-use ]
		Spintronics: Spin flip spectroscopy technique    [ Get permission to re-use ]
		SRAM #1    [ Get permission to re-use ]
		SRAM #2    [ Get permission to re-use ]
		Strained Silicon #1    [ Get permission to re-use ]
		Strained Silicon #2    [ Get permission to re-use ]
		Stuart Parkin    [ Get permission to re-use ]
		Sub-Angstrom resolution: 90 degree partial dislocation structure    [ Get permission to re-use ]
		Sub-Angstrom resolution: Au Test Objects    [ Get permission to re-use ]
		Sub-Angstrom resolution: comparison for Ge30Si70    [ Get permission to re-use ]
		Sub-Angstrom resolution: Ge30Si70 / Si Quantum Well    [ Get permission to re-use ]

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