Material
Spring College on Science at the Nanoscale | (smr 1564)
Go to day
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08:15 - 10:00
REGISTRATION
Location: Main Building, Lobby -
08:15
REGISTRATION
1h45'
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08:15
REGISTRATION
1h45'
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09:00 - 09:30
Tutorial
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09:00
Tutorial
30'
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09:00
Tutorial
30'
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09:30 - 10:30
Optical response: Motivation. Basic concepts. DFT and TDDFT.
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09:30
Optical response: Motivation. Basic concepts. DFT and TDDFT.
1h0'
Speaker: A. RUBIO (San Sebastian Univ., Spain) Material: lecture notes
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09:30
Optical response: Motivation. Basic concepts. DFT and TDDFT.
1h0'
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10:00 - 10:30
OPENING
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10:00
OPENING
30'
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10:00
OPENING
30'
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10:30 - 11:00
Coffee break
- 10:30 Coffee break 30'
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10:30 - 11:30
Biological applications of scanning probe microscopy (SPM) - Part I
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10:30
Biological applications of scanning probe microscopy (SPM) - Part I
1h0'
Speaker: G. SCOLES (Princeton Univ.Materials Institute, USA) Material: lecture notes
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10:30
Biological applications of scanning probe microscopy (SPM) - Part I
1h0'
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11:00 - 12:00
Molecular electronics: Transport and relationship to structure and kinetics
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11:00
Molecular electronics: Transport and relationship to structure and kinetics
1h0'
Speaker: M.A. RATNER (Northwestern Univ., Evanston, IL, USA) Material: lecture notes
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11:00
Molecular electronics: Transport and relationship to structure and kinetics
1h0'
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11:30 - 12:30
Molecular electronics: Introduction, generalities and targets
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11:30
Molecular electronics: Introduction, generalities and targets
1h0'
Speaker: M.A. RATNER (Northwestern Univ., Evanston, IL, USA) Material: lecture notes
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11:30
Molecular electronics: Introduction, generalities and targets
1h0'
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12:00 - 14:00
Lunch Break
- 12:00 Lunch Break 2h0'
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12:30 - 15:15
Lunch Break and Registration Administrative Formalities
- 12:30 Lunch Break and Registration Administrative Formalities 2h45'
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14:00 - 15:00
Single molecule biophysics - Part II
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14:00
Single molecule biophysics - Part II
1h0'
Speaker: J.M. FERNANDEZ (Columbia Univ., New York, USA) Material: lecture notes
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14:00
Single molecule biophysics - Part II
1h0'
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15:00 - 15:30
Coffee break
- 15:00 Coffee break 30'
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15:15 - 15:30
Short Presentations by the ICTP Computer Section
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15:15
Short Presentations by the ICTP Computer Section
15'
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15:15
Short Presentations by the ICTP Computer Section
15'
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15:30 - 16:30
Single molecule biophysics - Part I
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15:30
Single molecule biophysics - Part I
1h0'
Speaker: J.M. FERNANDEZ (Columbia Univ., New York, USA) Material: lecture notes
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15:30
Single molecule biophysics - Part I
1h0'
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15:30 - 16:30
STM of molecules and silicon - Part II
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15:30
STM of molecules and silicon - Part II
1h0'
Speaker: R.A. WOLKOW (Univ.Alberta and Nat.Inst.Nanotechnology, Edmonton, Canada) Material: lecture notes
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15:30
STM of molecules and silicon - Part II
1h0'
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16:30 - 17:30
STM of molecules and silicon - Part I
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16:30
STM of molecules and silicon - Part I
1h0'
Speaker: R.A. WOLKOW (Univ.Alberta and Nat.Inst.Nanotechnology, Edmonton, Canada) Material: lecture notes
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16:30
STM of molecules and silicon - Part I
1h0'
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18:00 - 19:00
Get to-gether Drink
Location: Main Building Terrace - 18:00 Get to-gether Drink 1h0'
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08:15 - 10:00
REGISTRATION
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09:00 - 09:30
Tutorial
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09:00
Tutorial
30'
Material: recording
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09:00
Tutorial
30'
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09:30 - 10:30
Nanometer-scale physics -- the examples of semiconductor quantum dots and heterogeneous catalysis
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09:30
Nanometer-scale physics -- the examples of semiconductor quantum dots and heterogeneous catalysis
1h0'
Speaker: M. SCHEFFLER (Fritz-Haber-Inst.der MPG, Berlin, Germany) Material: lecture notes recording
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09:30
Nanometer-scale physics -- the examples of semiconductor quantum dots and heterogeneous catalysis
1h0'
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10:30 - 11:00
Coffee breaks
- 10:30 Coffee breaks 30'
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11:00 - 12:00
Single molecule biophysics
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11:00
Single molecule biophysics
1h0'
Speaker: J.M. FERNANDEZ (Columbia Univ., New York, USA) Material: lecture notes recording
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11:00
Single molecule biophysics
1h0'
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12:00 - 14:00
Lunch break
- 12:00 Lunch break 2h0'
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14:00 - 15:00
TDDFT theory: Applications to nano and bio-structures
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14:00
TDDFT theory: Applications to nano and bio-structures
1h0'
Speaker: A. RUBIO (San Sebastian Univ., Spain) Material: lecture notes recording
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14:00
TDDFT theory: Applications to nano and bio-structures
1h0'
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15:00 - 15:30
Coffee break
- 15:00 Coffee break 30'
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15:30 - 16:30
Nanometer-scale physics -- the examples of semiconductor quantum dots and heterogenerous catalysis
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15:30
Nanometer-scale physics -- the examples of semiconductor quantum dots and heterogenerous catalysis
1h0'
Speaker: M. SCHEFFLER (Fritz-Haber-Inst. der MPG, Berlin, Germany) Material: lecture notes recording
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15:30
Nanometer-scale physics -- the examples of semiconductor quantum dots and heterogenerous catalysis
1h0'
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16:40 - 16:50
Magnetic thin films and DMS work
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16:40
Magnetic thin films and DMS work
10'
Speaker: S. KALE (Fergusson College, Pune, India) Material: recording
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16:40
Magnetic thin films and DMS work
10'
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16:40 - 17:40
PRESENTATIONS BY PARTICIPANTS
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16:40
PRESENTATIONS BY PARTICIPANTS
1h0'
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16:40
PRESENTATIONS BY PARTICIPANTS
1h0'
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16:50 - 17:00
Molecular electronics
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16:50
Molecular electronics
10'
Speaker: H. RAZA (Purdue Univ., West Lafayette, IN, USA) Material: recording
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16:50
Molecular electronics
10'
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17:10 - 17:20
Molecular electronics
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17:10
Molecular electronics
10'
Speaker: T.Z. KAZMI (Purdue Univ., West Lafayette, IN. USA)
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17:10
Molecular electronics
10'
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17:20 - 17:30
On the origin of the dielectric response in water
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17:20
On the origin of the dielectric response in water
10'
Speaker: M. SHARMA (Princeton Univ., Princeton, USA) Material: recording
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17:20
On the origin of the dielectric response in water
10'
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09:00 - 09:30
Tutorial
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09:00 - 09:30
Fabrication techniques for nanoscience
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09:00
Fabrication techniques for nanoscience
30'
Speaker: E. DI FABRIZIO (TASC, Trieste, Italy) Material: recording
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09:00
Fabrication techniques for nanoscience
30'
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09:30 - 10:00
Semiconductor nanowires
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09:30
Semiconductor nanowires
30'
Speaker: F. MARTELLI (TASC, Trieste, Italy) Material: recording
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09:30
Semiconductor nanowires
30'
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10:00 - 10:30
Carbon nanotubes applications
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10:00
Carbon nanotubes applications
30'
Speaker: A. GOLDONI (ELETTRA, Trieste, Italy)
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10:00
Carbon nanotubes applications
30'
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10:30 - 11:00
Coffee break
- 10:30 Coffee break 30'
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11:00 - 11:30
X-ray spectromicroscopy for nanostructured materials
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11:00
X-ray spectromicroscopy for nanostructured materials
30'
Speaker: M. KISKINOVA (ELETTRA, Trieste, Italy) Material: recording
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11:00
X-ray spectromicroscopy for nanostructured materials
30'
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11:30 - 12:00
Cross-sectional scanning tunneling microscopy and spectroscopy of semiconductor nanostructures
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11:30
Cross-sectional scanning tunneling microscopy and spectroscopy of semiconductor nanostructures
30'
Speaker: S. MODESTI (TASC, Trieste, Italy) Material: recording
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11:30
Cross-sectional scanning tunneling microscopy and spectroscopy of semiconductor nanostructures
30'
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12:00 - 13:30
Lunch break
- 12:00 Lunch break 1h30'
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13:30 - 14:30
TRANSPORTATION TO BASOVIZZA (please check notice boards for instructions
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13:30
TRANSPORTATION TO BASOVIZZA (please check notice boards for instructions
1h0'
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13:30
TRANSPORTATION TO BASOVIZZA (please check notice boards for instructions
1h0'
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14:30 - 16:30
Nanoscience @ ELETTRA & TASC (Field Visit to Basovizza, Trieste)
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14:30
Nanoscience @ ELETTRA & TASC (Field Visit to Basovizza, Trieste)
2h0'
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14:30
Nanoscience @ ELETTRA & TASC (Field Visit to Basovizza, Trieste)
2h0'
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09:00 - 09:30
Fabrication techniques for nanoscience
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09:00 - 09:30
Tutorial
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09:00
Tutorial
30'
Material: recording
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09:00
Tutorial
30'
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09:30 - 10:30
Extended systems: Problems and new developments
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09:30
Extended systems: Problems and new developments
1h0'
Speaker: A. RUBIO (San Sebastian Univ., Spain) Material: lecture notes recording
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09:30
Extended systems: Problems and new developments
1h0'
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10:30 - 11:00
Coffee break
- 10:30 Coffee break 30'
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11:00 - 12:00
Molecular electronics: Switching, dynamics and control
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11:00
Molecular electronics: Switching, dynamics and control
1h0'
Speaker: M.A. RATNER (Northwestern Univ., Evanston, IL, USA) Material: lecture notes recording
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11:00
Molecular electronics: Switching, dynamics and control
1h0'
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12:00 - 14:00
Lunch break
- 12:00 Lunch break 2h0'
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14:00 - 15:00
STM of molecules and silicon - Part III
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14:00
STM of molecules and silicon - Part III
1h0'
Speaker: R.A. WOLKOW (Univ.Alberta & Nat.Institute Nanotechnology, Edmonton, Canada) Material: lecture notes recording
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14:00
STM of molecules and silicon - Part III
1h0'
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15:00 - 15:30
Coffee break
- 15:00 Coffee break 30'
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15:30 - 16:30
Nanometer-scale physics -- the examples of semiconductor quantum dots and heterogeneous catalysis - Part III
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15:30
Nanometer-scale physics -- the examples of semiconductor quantum dots and heterogeneous catalysis - Part III
1h0'
Speaker: M. SCHEFFLER (Fritz-Haber-Inst. der MPG, Berlin, Germany) Material: lecture notes recording
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15:30
Nanometer-scale physics -- the examples of semiconductor quantum dots and heterogeneous catalysis - Part III
1h0'
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16:30 - 17:30
PRESENTATIONS BY PARTICIPANTS
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16:30
PRESENTATIONS BY PARTICIPANTS
1h0'
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16:30
PRESENTATIONS BY PARTICIPANTS
1h0'
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16:40 - 16:50
Electrical characterization of biopolymeric nanocomplex
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16:40
Electrical characterization of biopolymeric nanocomplex
10'
Speaker: H. MULLICK (Bijay Krishna Girls' College, Howrah, India) Material: recording
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16:40
Electrical characterization of biopolymeric nanocomplex
10'
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16:50 - 17:00
Epitaxial growth of MgB2 crystalline films and their electronic properties
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16:50
Epitaxial growth of MgB2 crystalline films and their electronic properties
10'
Speaker: R. MACOVEZ (Univ. Groningen, Netherlands) Material: recording
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16:50
Epitaxial growth of MgB2 crystalline films and their electronic properties
10'
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17:00 - 17:10
Optimal quantum spin pumping
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17:00
Optimal quantum spin pumping
10'
Speaker: C. BENJAMIN (Institute of Physics, Bhubaneswar, India) Material: recording
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17:00
Optimal quantum spin pumping
10'
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17:10 - 17:20
Quantum current magnification in a multi-channel mesoscopic ring
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17:10
Quantum current magnification in a multi-channel mesoscopic ring
10'
Speaker: S. BANDOPADHYAY (S.N. Bose National Centre, Kolkata, India) Material: recording
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17:10
Quantum current magnification in a multi-channel mesoscopic ring
10'
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09:00 - 09:30
Tutorial
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09:00 - 09:30
Tutorial
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09:00
Tutorial
30'
Material: recording
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09:00
Tutorial
30'
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09:30 - 10:30
Introduction to nanoscale simulations - Part I
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09:30
Introduction to nanoscale simulations - Part I
1h0'
Speaker: R. CAR (Princeton Univ., Materials Institute, USA) Material: lecture notes recording
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09:30
Introduction to nanoscale simulations - Part I
1h0'
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10:30 - 11:00
Coffee break
- 10:30 Coffee break 30'
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11:00 - 12:00
Electronic and thermal transport in naoscale materials - Part I
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11:00
Electronic and thermal transport in naoscale materials - Part I
1h0'
Speaker: P. KIM (Columbia Univ., New York, USA) Material: lecture notes recording
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11:00
Electronic and thermal transport in naoscale materials - Part I
1h0'
-
12:00 - 14:00
Lunch break
- 12:00 Lunch break 2h0'
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14:00 - 15:00
Biochips - Part I
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14:00
Biochips - Part I
1h0'
Speaker: R. BASHIR (Electr.& Computer Engg., Purdue Univ., West Lafayette, USA) Material: lecture notes recording
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14:00
Biochips - Part I
1h0'
-
15:00 - 15:30
Coffee break
- 15:00 Coffee break 30'
-
15:30 - 16:30
DNA self-assembly, molecules, electricity - Part I
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15:30
DNA self-assembly, molecules, electricity - Part I
1h0'
Speaker: U. SIVAN (TECHNION, Israel Inst. of Technology, Haifa, Israel) Material: lecture notes recording
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15:30
DNA self-assembly, molecules, electricity - Part I
1h0'
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16:30 - 17:30
PRESENTATIONS BY PARTICIPANTS
-
16:30
PRESENTATIONS BY PARTICIPANTS
1h0'
-
16:30
PRESENTATIONS BY PARTICIPANTS
1h0'
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16:40 - 16:50
Twisting carbon nanotubes
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16:40
Twisting carbon nanotubes
10'
Speaker: L. TERESI (Univ. di Roma Tre, Italy) Material: recording
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16:40
Twisting carbon nanotubes
10'
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16:50 - 17:00
Excitation of phonons in nanostructures
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16:50
Excitation of phonons in nanostructures
10'
Speaker: B.A. GLAVIN (V.E. Lashkar'ov Institute, Kiev, Ukraine)
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16:50
Excitation of phonons in nanostructures
10'
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17:00 - 17:10
A new mechanism of electron-phonon interaction in nanostructures
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17:00
A new mechanism of electron-phonon interaction in nanostructures
10'
Speaker: T.L. LYNNYK (Institute Semiconductors, Kiev, Ukraine) Material: recording
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17:00
A new mechanism of electron-phonon interaction in nanostructures
10'
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17:10 - 17:20
Theories of dilute magnetic semiconductors- what do we keep and what do we discard?
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17:10
Theories of dilute magnetic semiconductors- what do we keep and what do we discard?
10'
Speaker: P. MAHADEVAN (Indian Institute of Technology, Madras, India) Material: recording
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17:10
Theories of dilute magnetic semiconductors- what do we keep and what do we discard?
10'
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17:20 - 17:30
Simple scaling laws for quantum
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17:20
Simple scaling laws for quantum
10'
Speaker: R.K. PANDEY (Indian Institute of Technology, Kanpur, India)
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17:20
Simple scaling laws for quantum
10'
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09:00 - 09:30
Tutorial
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09:00 - 09:30
Tutorial
-
09:00
Tutorial
30'
Material: recording
-
09:00
Tutorial
30'
-
09:30 - 10:30
Theory/Transport - Part I
-
09:30
Theory/Transport - Part I
1h0'
Speaker: B. ALTSHULER (Princeton Univ., Physics Dept., USA) Material: lecture notes recording
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09:30
Theory/Transport - Part I
1h0'
-
10:30 - 11:00
Coffee break
- 10:30 Coffee break 30'
-
11:00 - 12:00
Biochips - Part II
-
11:00
Biochips - Part II
1h0'
Speaker: R. BASHIR (Electr.& Computer Engg., Purdue Univ., West Lafayette, USA) Material: lecture notes recording
-
11:00
Biochips - Part II
1h0'
-
12:00 - 14:00
Lunch break
- 12:00 Lunch break 2h0'
-
14:00 - 15:00
Introduction to nanoscale simulations - Part II
-
14:00
Introduction to nanoscale simulations - Part II
1h0'
Speaker: R. CAR (Princeton Univ., Materials Institute, USA) Material: lecture notes recording
-
14:00
Introduction to nanoscale simulations - Part II
1h0'
-
15:00 - 15:30
Coffee break
-
15:00
Coffee break
30'
-
15:00
Coffee break
30'
-
15:30 - 16:30
Biological applications of scanning probe microscopy (SPM) - Part II
-
15:30
Biological applications of scanning probe microscopy (SPM) - Part II
1h0'
Speaker: G. SCOLES (Princeton Univ., Materials Institute, USA) Material: lecture notes recording
-
15:30
Biological applications of scanning probe microscopy (SPM) - Part II
1h0'
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16:30 - 17:30
PRESENTATIONS BY PARTICIPANTS
Location: Main Building Lecture Room C -
16:30
PRESENTATIONS BY PARTICIPANTS
1h0'
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16:30
PRESENTATIONS BY PARTICIPANTS
1h0'
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16:40 - 16:50
MD simulation of nanotube growth
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16:40
MD simulation of nanotube growth
10'
Speaker: K. ESFARJANI (Sharif Univ., Tehran, Iran) Material: recording
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16:40
MD simulation of nanotube growth
10'
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16:50 - 17:00
Facet free selective elevation of silicon for nanoscale device fabrication
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16:50
Facet free selective elevation of silicon for nanoscale device fabrication
10'
Speaker: Md. Q. HUDA (Bangladesh Univ. of Engg. & Tech., Dhaka, Bangladesh) Material: recording
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16:50
Facet free selective elevation of silicon for nanoscale device fabrication
10'
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17:00 - 17:10
Symetry breakig of charged xay molecules
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17:00
Symetry breakig of charged xay molecules
10'
Speaker: D. BALAMURUGAN (Indian Institute of Technology, Kanpur, India) Material: recording
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17:00
Symetry breakig of charged xay molecules
10'
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17:10 - 17:20
First x-ray photoelectron spectroscopic measurements of organic clay
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17:10
First x-ray photoelectron spectroscopic measurements of organic clay
10'
Speaker: D. BENNE (Univ. Groningen, Netherlands) Material: recording
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17:10
First x-ray photoelectron spectroscopic measurements of organic clay
10'
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17:20 - 17:30
Heterstructure nanoparticle Fe(CCrxFeq-x)203
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17:20
Heterstructure nanoparticle Fe(CCrxFeq-x)203
10'
Speaker: J. LAI (Polytechnic Univ., Brooklyn, New York, USA) Material: recording
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17:20
Heterstructure nanoparticle Fe(CCrxFeq-x)203
10'
-
09:00 - 09:30
Tutorial
-
-
09:00 - 10:00
Theory / Transport - Part II
-
09:00
Theory / Transport - Part II
1h0'
Speaker: B. ALTSHULER (Princeton Univ., Physics Dept. USA) Material: lecture notes recording
-
09:00
Theory / Transport - Part II
1h0'
-
10:00 - 10:30
Coffee break
- 10:00 Coffee break 30'
-
10:30 - 11:30
DNA self-assembly, molecules, electricity - Part II
-
10:30
DNA self-assembly, molecules, electricity - Part II
1h0'
Speaker: U. SIVAN (TECHNION, Israel Inst. of Technology, Haifa, Israel) Material: lecture notes recording
-
10:30
DNA self-assembly, molecules, electricity - Part II
1h0'
-
11:30 - 12:30
Biochips - Part III
-
11:30
Biochips - Part III
1h0'
Speaker: R. BASHIR (Electr.& Computer Engg., Purdue Univ., West Lafayette, USA) Material: lecture notes recording
-
11:30
Biochips - Part III
1h0'
-
12:30 - 14:00
Lunch break
- 12:30 Lunch break 1h30'
-
14:00 - 15:00
DNA self-assembly, molecules, electricity - Part III
-
14:00
DNA self-assembly, molecules, electricity - Part III
1h0'
Speaker: U. SIVAN (TECHNION, Israel Inst. of Technology, Haifa, Israel) Material: lecture notes recording
-
14:00
DNA self-assembly, molecules, electricity - Part III
1h0'
-
15:00 - 15:30
Coffee break
- 15:00 Coffee break 30'
-
15:30 - 16:30
Electronic and thermal transport in nanoscale materials - Part II
-
15:30
Electronic and thermal transport in nanoscale materials - Part II
1h0'
Speaker: P. KIM (Columbia Univ., New York, USA) Material: lecture notes recording
-
15:30
Electronic and thermal transport in nanoscale materials - Part II
1h0'
-
16:40 - 17:40
POSTER PRESENTATIONS BY PARTICIPANTS
Location: Main Building, Lobby -
16:40
POSTER PRESENTATIONS BY PARTICIPANTS
1h0'
-
16:40
POSTER PRESENTATIONS BY PARTICIPANTS
1h0'
-
09:00 - 10:00
Theory / Transport - Part II
-
-
09:00 - 09:30
Tutorial
-
09:00
Tutorial
30'
Material: recording
-
09:00
Tutorial
30'
-
09:00 - 10:00
Electronic and thermal transport in nanoscale materials - Part III
-
09:00
Electronic and thermal transport in nanoscale materials - Part III
1h0'
Speaker: P. KIM (Columbia Univ., New York, USA) Material: lecture notes recording
-
09:00
Electronic and thermal transport in nanoscale materials - Part III
1h0'
-
10:30 - 11:00
Coffee break
- 10:30 Coffee break 30'
-
11:00 - 12:00
Quantum transport: Atom to transistor
-
11:00
Quantum transport: Atom to transistor
1h0'
Speaker: S. DATTA (Electr. & Computer Engg., Purdue Univ., West Lafayette, USA) Material: lecture notes recording
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11:00
Quantum transport: Atom to transistor
1h0'
-
12:00 - 14:00
Lunch break
- 12:00 Lunch break 2h0'
-
14:00 - 15:00
The Non-equilibrium Green function (NEGF) method
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14:00
The Non-equilibrium Green function (NEGF) method
1h0'
Speaker: S. DATTA (Electr.& Computer Engg., Purdue Univ., West Lafayette, USA) Material: lecture notes recording
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14:00
The Non-equilibrium Green function (NEGF) method
1h0'
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15:00 - 15:30
Coffee break
- 15:00 Coffee break 30'
-
15:30 - 16:30
Coulomb blockade & strong correlations
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15:30
Coulomb blockade & strong correlations
1h0'
Speaker: S. DATTA (Electr.& Computer Engg., Purdue Univ., West Lafayette, USA) Material: lecture notes recording
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15:30
Coulomb blockade & strong correlations
1h0'
-
16:30 - 17:30
Computer Laboratory - Introduction to the simulation Hub - Toy models for nanoscale transport: MolToy, FETToy
Location: Computer Lab. (M) -
16:30
Computer Laboratory - Introduction to the simulation Hub - Toy models for nanoscale transport: MolToy, FETToy
1h0'
Speaker: T.KAZMI & H. RAZA (Electr. & Comput. Engg., Purdue Univ., West Lafayette, USA)
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16:30
Computer Laboratory - Introduction to the simulation Hub - Toy models for nanoscale transport: MolToy, FETToy
1h0'
-
09:00 - 09:30
Tutorial
-
-
09:00 - 09:30
Tutorial
-
09:00
Tutorial
30'
-
09:00
Tutorial
30'
-
09:30 - 10:30
Introduction to nanoscale simulations - Part III
-
09:30
Introduction to nanoscale simulations - Part III
1h0'
Speaker: R. CAR (Princeton Univ., Materials Institute, USA) Material: lecture notes recording
-
09:30
Introduction to nanoscale simulations - Part III
1h0'
-
10:30 - 11:00
Coffee break
- 10:30 Coffee break 30'
-
11:00 - 12:00
CMOS for Scientists
-
11:00
CMOS for Scientists
1h0'
Speaker: M. LUNDSTROM (Electr.& Computer Engg., Purdue Univ., West Lafayette, USA) Material: lecture notes recording
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11:00
CMOS for Scientists
1h0'
-
12:00 - 14:00
Lunch break
- 12:00 Lunch break 2h0'
-
14:00 - 15:00
Nanoscale transistors: Ultimate silicon and beyond
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14:00
Nanoscale transistors: Ultimate silicon and beyond
1h0'
Speaker: M. LUNDSTROM (Electr. & Computer Engg., Purdue Univ., West Lafayette, USA) Material: lecture notes recording
-
14:00
Nanoscale transistors: Ultimate silicon and beyond
1h0'
-
15:00 - 15:30
Coffee break
- 15:00 Coffee break 30'
-
15:30 - 16:30
Simulation of quantum transport in MOSFETS
-
15:30
Simulation of quantum transport in MOSFETS
1h0'
Speaker: M. LUNDSTROM (Elect.& Computer Engg., Purdue Univ., West Lafayette, USA) Material: lecture notes recording
-
15:30
Simulation of quantum transport in MOSFETS
1h0'
-
16:30 - 17:30
Computer laboratory - Real models for molecular transport: Huckel_IV 2.0
Location: Computer Lab. (M) -
16:30
Computer laboratory - Real models for molecular transport: Huckel_IV 2.0
1h0'
Speaker: T.KAZMI & H. RAZA (Electr.& Computer Engg., Purdue Univ., West Lafayette, USA)
-
16:30
Computer laboratory - Real models for molecular transport: Huckel_IV 2.0
1h0'
-
09:00 - 09:30
Tutorial
-
-
09:30 - 10:30
Semiconductors; Devices - Part I
-
09:30
Semiconductors; Devices - Part I
1h0'
Speaker: C.R. KAGAN (IBM - Thomas J. Watson Res.Center, Yorktown Heights, NY, USA) Material: lecture notes recording
-
09:30
Semiconductors; Devices - Part I
1h0'
-
10:30 - 11:00
Coffee break
- 10:30 Coffee break 30'
-
11:00 - 12:00
Nanobio: Transport in biomolecules - Part I
-
11:00
Nanobio: Transport in biomolecules - Part I
1h0'
Speaker: U. LANDMAN (Georgia Inst. Technology, Atlanta, GA, USA) Material: recording
-
11:00
Nanobio: Transport in biomolecules - Part I
1h0'
-
12:00 - 14:00
Lunch break
- 12:00 Lunch break 2h0'
-
14:00 - 15:00
Metallic nanowires
-
14:00
Metallic nanowires
1h0'
Speaker: E. TOSATTI (SISSA, Trieste, Italy) Material: lecture notes recording
-
14:00
Metallic nanowires
1h0'
-
15:00 - 15:30
Coffee break
- 15:00 Coffee break 30'
-
15:30 - 16:30
Part I - Nanoscale surface physics with local probes: (i) Two-dimensional self-assembly of supermolecules and of atomic superlattices (ii) Insulators at the limit
-
15:30
Part I - Nanoscale surface physics with local probes: (i) Two-dimensional self-assembly of supermolecules and of atomic superlattices (ii) Insulators at the limit
1h0'
Speaker: W.-D. SCHNEIDER (Univ. Lausanne, Switzerland) Material: lecture notes recording
-
15:30
Part I - Nanoscale surface physics with local probes: (i) Two-dimensional self-assembly of supermolecules and of atomic superlattices (ii) Insulators at the limit
1h0'
-
16:30 - 17:30
PRESENTATIONS BY PARTICIPANTS
Location: Main Building Lecture Room C -
16:30
PRESENTATIONS BY PARTICIPANTS
1h0'
-
16:30
PRESENTATIONS BY PARTICIPANTS
1h0'
-
16:40 - 16:50
Concentrated photovoltaic
-
16:40
Concentrated photovoltaic
10'
Speaker: A. ANTONINI (Univ. Ferrara, Italy) Material: recording
-
16:40
Concentrated photovoltaic
10'
-
16:50 - 17:00
Benzene molecule as resonant-tunneling molecular transistor
-
16:50
Benzene molecule as resonant-tunneling molecular transistor
10'
Speaker: YANG, ZhongQin (Fudan Univ., Shanghai, China) Material: recording
-
16:50
Benzene molecule as resonant-tunneling molecular transistor
10'
-
17:00 - 17:10
Hybrid nano material PMMA/AU by laser spin coating and laser lyophilization
-
17:00
Hybrid nano material PMMA/AU by laser spin coating and laser lyophilization
10'
Speaker: F. FOTSA NGAFFO (Univ. of Witwatersrand, Johannesburg, S.Africa) Material: recording
-
17:00
Hybrid nano material PMMA/AU by laser spin coating and laser lyophilization
10'
-
17:10 - 17:20
Hydrogen storage in amorphus aggregato: eD polyconjunigated deudrimers a classical molecular dynamics study
-
17:10
Hydrogen storage in amorphus aggregato: eD polyconjunigated deudrimers a classical molecular dynamics study
10'
Speaker: P. CARBONE (Univ. di Bologna, Italy) Material: recording
-
17:10
Hydrogen storage in amorphus aggregato: eD polyconjunigated deudrimers a classical molecular dynamics study
10'
-
09:30 - 10:30
Semiconductors; Devices - Part I
-
-
09:00 - 09:30
Tutorial
-
09:00
Tutorial
30'
-
09:00
Tutorial
30'
-
09:30 - 10:30
Surfaces - Part I
-
09:30
Surfaces - Part I
1h0'
Speaker: A. SELLONI (Princeton Univ., Chemistry Dept. , USA) Material: recording
-
09:30
Surfaces - Part I
1h0'
-
10:30 - 11:00
Coffee break
- 10:30 Coffee break 30'
-
11:00 - 12:00
Biomolecules: Simulation - Part I
-
11:00
Biomolecules: Simulation - Part I
1h0'
Speaker: M. PARRINELLO (ETH, Zurich, Switzerland) Material: lecture notes recording
-
11:00
Biomolecules: Simulation - Part I
1h0'
-
12:00 - 14:00
Lunch break
- 12:00 Lunch break 2h0'
-
14:00 - 15:00
Nanobio: Transport in biomolecules - Part II
-
14:00
Nanobio: Transport in biomolecules - Part II
1h0'
Speaker: U. LANDMAN (Georgia Inst. Technology, Atlanta, GA, USA) Material: recording
-
14:00
Nanobio: Transport in biomolecules - Part II
1h0'
-
15:00 - 15:30
Coffee break
-
15:00
Coffee break
30'
-
15:00
Coffee break
30'
-
15:30 - 16:30
Nanobio: Transport in biomolecules - Part III
-
15:30
Nanobio: Transport in biomolecules - Part III
1h0'
Speaker: U. LANDMAN (Georgia Inst. Technology, Atlanta, GA, USA) Material: recording
-
15:30
Nanobio: Transport in biomolecules - Part III
1h0'
-
16:30 - 17:30
PRESENTATIONS BY PARTICIPANTS
Location: Main Building Lecture Room C -
16:30
PRESENTATIONS BY PARTICIPANTS
1h0'
-
16:30
PRESENTATIONS BY PARTICIPANTS
1h0'
-
16:40 - 16:50
Spin-wave dispersion and thermodynamic properties of La2CuO4
-
16:40
Spin-wave dispersion and thermodynamic properties of La2CuO4
10'
Speaker: M. MANOJLOVIC (Univ. Novi Sad, Serbia & Montenegro) Material: recording
-
16:40
Spin-wave dispersion and thermodynamic properties of La2CuO4
10'
-
16:50 - 17:00
Synthesis and characterisation of photonic semiconductors: some investigations
-
16:50
Synthesis and characterisation of photonic semiconductors: some investigations
10'
Speaker: V. RAVICHANDRAN (Univ. Madras, India) Material: recording
-
16:50
Synthesis and characterisation of photonic semiconductors: some investigations
10'
-
17:00 - 17:10
Nanostructures of ceramic surfaces by a non-hard lithographic approach
-
17:00
Nanostructures of ceramic surfaces by a non-hard lithographic approach
10'
Speaker: O. AZZARONI (INIFTA, La Plata, Argentina) Material: recording
-
17:00
Nanostructures of ceramic surfaces by a non-hard lithographic approach
10'
-
17:10 - 17:20
Negatively curved carbon structures
-
17:10
Negatively curved carbon structures
10'
Speaker: F. VALENCIA HERNANDEZ (IPICYT, San Luis Potosi, Mexico) Material: recording
-
17:10
Negatively curved carbon structures
10'
-
17:20 - 17:30
Finite systems under pressure
-
17:20
Finite systems under pressure
10'
Speaker: S.E. BALTAZAR ROJAS (IPICYT, San Luis Potosi, Mexico) Material: recording
-
17:20
Finite systems under pressure
10'
-
09:00 - 09:30
Tutorial
-
-
09:00 - 10:00
Nanocrystals - Part I
-
09:00
Nanocrystals - Part I
1h0'
Speaker: C. MURRAY (IBM - Thomas J. Watson Res.Center, Yorktown Heights, NY, USA) Material: lecture notes recording
-
09:00
Nanocrystals - Part I
1h0'
-
10:00 - 10:30
Coffee break
- 10:00 Coffee break 30'
-
10:30 - 11:30
Part II - Nanoscale surface physics with local probes: (i) Two-dimensional self-assembly of supermolecules and of atomic superlattices (ii) Insulators at the limit
-
10:30
Part II - Nanoscale surface physics with local probes: (i) Two-dimensional self-assembly of supermolecules and of atomic superlattices (ii) Insulators at the limit
1h0'
Speaker: W.-D. SCHNEIDER (Univ. Lausanne, Switzerland) Material: lecture notes recording
-
10:30
Part II - Nanoscale surface physics with local probes: (i) Two-dimensional self-assembly of supermolecules and of atomic superlattices (ii) Insulators at the limit
1h0'
-
11:30 - 12:30
Semiconductors; Devices - Part II
-
11:30
Semiconductors; Devices - Part II
1h0'
Speaker: C.R. KAGAN (IBM - Thomas J.Watson Res.Center, Yorktown Heights, NY, USA) Material: lecture notes recording
-
11:30
Semiconductors; Devices - Part II
1h0'
-
12:30 - 14:00
Lunch break
- 12:30 Lunch break 1h30'
-
14:00 - 15:00
Surfaces - Part II
-
14:00
Surfaces - Part II
1h0'
Speaker: A. SELLONI (Princeton Univ., Chemistry Dept., USA) Material: recording
-
14:00
Surfaces - Part II
1h0'
-
15:00 - 15:30
Coffee break
- 15:00 Coffee break 30'
-
15:30 - 16:30
Biomolecules: Simulation - Part II
-
15:30
Biomolecules: Simulation - Part II
1h0'
Speaker: M. PARRINELLO (ETH, Zurich, Switzerland) Material: lecture notes recording
-
15:30
Biomolecules: Simulation - Part II
1h0'
-
09:00 - 10:00
Nanocrystals - Part I
-
-
09:00 - 09:30
Tutorial
-
09:00
Tutorial
30'
-
09:00
Tutorial
30'
-
09:30 - 10:30
Nanocrystals - Part II
-
09:30
Nanocrystals - Part II
1h0'
Speaker: C. MURRAY (IBM - Thomas J. Watson Res.Center, Yorktown Heights, NY, USA) Material: lecture notes recording
-
09:30
Nanocrystals - Part II
1h0'
-
10:30 - 11:00
Coffee break
- 10:30 Coffee break 30'
-
11:00 - 12:00
Kinetic approach to quantum transport - Part I
-
11:00
Kinetic approach to quantum transport - Part I
1h0'
Speaker: R. GEBAUER (ICTP, Trieste, Italy) Material: lecture notes recording
-
11:00
Kinetic approach to quantum transport - Part I
1h0'
-
12:00 - 14:00
Lunch break
- 12:00 Lunch break 2h0'
-
14:00 - 15:00
Part III - Nanoscale surface physics with local probes: (i) Two-dimensional self-assembly of supermolecules and of atomic superlattices (ii) Insulators at the limit
-
14:00
Part III - Nanoscale surface physics with local probes: (i) Two-dimensional self-assembly of supermolecules and of atomic superlattices (ii) Insulators at the limit
1h0'
Speaker: W.-D.SCHNEIDER (Univ. Lausanne, Switzerland) Material: lecture notes recording
-
14:00
Part III - Nanoscale surface physics with local probes: (i) Two-dimensional self-assembly of supermolecules and of atomic superlattices (ii) Insulators at the limit
1h0'
-
15:00 - 15:30
Coffee break
- 15:00 Coffee break 30'
-
15:30 - 16:30
Biomolecules: Simulation - Part III
-
15:30
Biomolecules: Simulation - Part III
1h0'
Speaker: M. PARRINELLO (ETH, Zurich, Switzerland) Material: lecture notes recording
-
15:30
Biomolecules: Simulation - Part III
1h0'
-
16:30 - 17:30
PRESENTATIONS BY PARTICIPANTS
Location: Main Building Lecture Room C -
16:30
PRESENTATIONS BY PARTICIPANTS
1h0'
-
16:30
PRESENTATIONS BY PARTICIPANTS
1h0'
-
16:40 - 16:50
Buffer layer assisted growth (BLAG) of nanostructures
-
16:40
Buffer layer assisted growth (BLAG) of nanostructures
10'
Speaker: A.S. BHATTI (COMSATS Institute of Information Technology, Islamabad, Pakistan) Material: recording
-
16:40
Buffer layer assisted growth (BLAG) of nanostructures
10'
-
16:50 - 17:00
Momentum - space properties from co-ordinate-space electron density
-
16:50
Momentum - space properties from co-ordinate-space electron density
10'
Speaker: R.K. PATHAK (Univ. Pune, India) Material: recording
-
16:50
Momentum - space properties from co-ordinate-space electron density
10'
-
17:00 - 17:10
First principles simulations of tunnelling spectra: surface states on chromium and iron
-
17:00
First principles simulations of tunnelling spectra: surface states on chromium and iron
10'
Speaker: A. GARCIA-LEKUE (Univ. Liverpool, U.K.) Material: recording
-
17:00
First principles simulations of tunnelling spectra: surface states on chromium and iron
10'
-
09:00 - 09:30
Tutorial
-
-
09:00 - 10:00
Surfaces - Part III
-
09:00
Surfaces - Part III
1h0'
Speaker: A. SELLONI (Princeton Univ., Chemistry Dept. USA) Material: lecture notes recording
-
09:00
Surfaces - Part III
1h0'
-
10:00 - 10:30
Coffee break
- 10:00 Coffee break 30'
-
10:30 - 11:30
Semiconductors; Devices - Part III
-
10:30
Semiconductors; Devices - Part III
1h0'
Speaker: C.R. KAGAN (IBM - Thomas J.Watson Res.Center, Yorktown Heights, NY, USA) Material: lecture notes recording
-
10:30
Semiconductors; Devices - Part III
1h0'
-
11:30 - 12:30
Kinetic approach to quantum transport - Part II
-
11:30
Kinetic approach to quantum transport - Part II
1h0'
Speaker: R. GEBAUER (ICTP, Trieste, Italy) Material: lecture notes recording
-
11:30
Kinetic approach to quantum transport - Part II
1h0'
-
12:30 - 13:00
CLOSING REMARKS
-
12:30
CLOSING REMARKS
30'
-
12:30
CLOSING REMARKS
30'
-
09:00 - 10:00
Surfaces - Part III