Imaging hits noise barrier http://t.co/0nvzwRsXJC 電顕の分解能が限界に近づきつつあるという記事。
Imaging hits noise barrier http://t.co/0nvzwRsXJC 電顕の分解能が限界に近づきつつあるという記事。
يبدو أن المجهر الالكتروني وصل إلى أعلى دقة مسموح بها فيزيائياً !! قد نحتاج لنظام تصويري آخر لمعاينة الأجسام الأصغر... http://t.co/NNdSbN4YwU
يبدو أن المجهر الالكتروني وصل إلى أعلى دقة مسموح بها فيزيائياً !! قد نحتاج لنظام تصويري آخر لمعاينة الأجسام الأصغر... http://t.co/NNdSbN4YwU
يبدو أن المجهر الالكتروني وصل إلى أعلى دقة مسموح بها فيزيائياً !! قد نحتاج لنظام تصويري آخر لمعاينة الأجسام الأصغر... http://t.co/NNdSbN4YwU
يبدو أن المجهر الالكتروني وصل إلى أعلى دقة مسموح بها فيزيائياً !! قد نحتاج لنظام تصويري آخر لمعاينة الأجسام الأصغر... http://t.co/NNdSbN4YwU
يبدو أن المجهر الالكتروني وصل إلى أعلى دقة مسموح بها فيزيائياً !! قد نحتاج لنظام تصويري آخر لمعاينة الأجسام الأصغر... http://t.co/NNdSbN4YwU
Imaging hits noise barrier : Nature News & Comment http://t.co/mscg5vCAHR
Electron microscopes may have reached their highest possible resolution http://t.co/gK5r0tqn4J
Electron microscope imaging hits noise barrier #story @NatureNews http://t.co/01wgDHOuk2 #acceptedPRL http://t.co/qQiJqVYyus
Electron microscopes may have reached their highest possible resolution http://t.co/gK5r0tqn4J
Electron microscopes may have reached their highest possible resolution http://t.co/gK5r0tqn4J
Electron microscopes may have reached their highest possible resolution http://t.co/gK5r0tqn4J
Electron microscopy may be nearing its highest possible resolution. #physics @NatureNews Nature News and Comment http://t.co/Nrx1pCCXxy
Physical limits mean that electron microscopy may be nearing highest possible resolution. http://t.co/bmZvFik3Dn
Electron microscopes may have reached their highest possible resolution http://t.co/gK5r0tqn4J
Electron microscopes may have reached their highest possible resolution http://t.co/gK5r0tqn4J
Electron microscopes may have reached their highest possible resolution http://t.co/gK5r0tqn4J
Electron microscopes may have reached their highest possible resolution http://t.co/gK5r0tqn4J
Electron microscopes may have reached their highest possible resolution http://t.co/gK5r0tqn4J
Electron microscopes may have reached their highest possible resolution http://t.co/gK5r0tqn4J
Electron microscopes may have reached their highest possible resolution http://t.co/gK5r0tqn4J
Imaging hits noise barrier http://t.co/WM2yF8jPIz The Universe of Sound http://t.co/wcNhK7BORo
Has the electron microscope reached the limit of its possible resolution, never to peer within the radius of an atom? http://t.co/R2C4FZqwk6
RT @pfbunny: #Physical limits mean that electron #microscopy may be nearing highest possible resolution. #science http://t.co/Gcd4S8zDl8
#Physical limits mean that electron #microscopy may be nearing highest possible resolution. #science http://t.co/6WDpxX7qcm
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
Imaging hits noise barrier http://t.co/YALGnFBXRC
Imaging hits noise barrier http://t.co/U91UAY95vv
Small problem. We're nearing the limit of electron microscopy resolution. http://t.co/O6gncMQBfZ #microscopy by @EugenieReich @NatureNews
Physical limits mean that electron microscopy may be nearing highest possible resolution - http://t.co/kFzLv04k0z
Have we maxed out the zoom on electron microscopes? http://t.co/QE5c1Wvkd1 @NatureNews
Imaging hits noise barrier http://t.co/sdsRKQrpDM
Physical limits mean that electron microscopy may be nearing highest possible resolution - http://t.co/kFzLv04k0z
"Imaging hits noise barrier", interesting read re: TEM limits by @EugenieReich http://t.co/17wfupOy8F via @feedly
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
Electron microscopes may be approaching the limits that they can resolve. http://t.co/voZYfBETha
そうか、いよいよそこまで来ましたか…「電子顕微鏡の分解能アップは、ノイズの問題でそろそろ限界に」 / “Imaging hits noise barrier : Nature News & Comment” http://t.co/YSXFeoGxOw
Imaging hits noise barrier http://t.co/YALGnFBXRC
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
電子顕微鏡は分解能の限界に近づきつつある?現在 0.5Åとのこと。Imaging hits noise barrier http://t.co/3ohC7B83oC
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
Imaging hits noise barrier: Physical limits mean that electron microscopy may be nearing highest possible resolution. http://t.co/mjLl4hL2jd
Physical limits mean that electron microscopy may be nearing highest possible resolution. http://t.co/Uq3TUkhSnm
Imaging hits noise barrier http://t.co/WVGbFDf78V
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
Physical limits restrict higher resolutions in electron #microscopy - http://t.co/QOzd6g5ZQV via @NatureNews
Imaging hits noise barrier http://t.co/YALGnFBXRC
Hoped for improvements in the resolution of electron microscopes may be stymied by unexpected noise http://t.co/dnMSapzEz2
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
Imaging hits noise barrier http://t.co/YALGnFBXRC
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
Imaging hits noise barrier http://t.co/obiSHaB0Xu
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
Imaging hits noise barrier http://t.co/YALGnFBXRC
Why an imaging resolution of 0.1 Angstrom cannot be reached. via @NatureNews http://t.co/7WAXMA8ZF3
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
Imaging hits noise barrier http://t.co/vNS4SpQghV
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
Why an imaging resolution of 0.1 Angstrom cannot be reached. via @NatureNews http://t.co/7WAXMA8ZF3
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
@Pharaoness imagining hits noise barrier FENYMAN work @henna_khan @ediesteen http://t.co/Zxr3pm3Gtp
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
Nature News: Physical limits mean that electron microscopy may be nearing highest possible resolution http://t.co/nlk5aAvFAv #sadpanda
Imaging hits noise barrier http://t.co/YALGnFBXRC
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
Imaging hits noise barrier http://t.co/YALGnFBXRC
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
1959: Feynman sets goal of imaging to a resolution of 0.1 Angstrom. 2013: researchers say we won't ever reach it http://t.co/waDBqSWmQI
Resolution limits in electron microscopy “@NatureNews: Imaging hits noise barrier http://t.co/BK4jWwbE0C”
Resolution limits in electron microscopy “@NatureNews: Imaging hits noise barrier http://t.co/BK4jWwbE0C”
Imaging hits noise barrier http://t.co/YALGnFBXRC
Imaging hits noise barrier http://t.co/YALGnFBXRC
Imaging hits noise barrier http://t.co/YALGnFBXRC
http://t.co/jspSwRiJN2 Imaging hits noise barrier
Imaging hits noise barrier http://t.co/YALGnFBXRC