Difference between revisions of "Research"

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(Research topics Marquardt group)
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== Research topics Marquardt group ==
 
== Research topics Marquardt group ==
  
(each of the sections will have some small "icon"-type picture)
 
  
'''[[Decoherence]]''' - blabla (short description) ''Read more about it...'' (link to another page)
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{|
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|[[File:OptomechanicsButton.png|link=Optomechanics]] || '''Optomechanics''' - Light interacting with nanomechanical motion has become a research topic drawing a lot of attention recently. Read more about our theory contributions in that domain.
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|-
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|[[File:DecoherenceButton.png|link=Decoherence]] || '''Decoherence''' - A quantum system interacting with a noisy environment suffers decoherence, i.e. interference effects are destroyed. This is a topic important both for fundamental reasons (quantum-classical transition, quantum measurement, characterizing interaction effects), as well as for possible applications (sensitive measurements and quantum information processing).
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|-
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|[[File:CircuitQEDButton.png|link=Quantum electrodynamics in superconducting circuit]] || '''Quantum electrodynamics in superconducting circuit''' - Microwave radiation interacting with a superconducting artificial atom on a chip.
  
'''[[Optomechanics]]''' - blabla (short description) ''Read more about it...'' (link to another page)
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|}
  
'''[[Quantum electrodynamics in superconducting circuits]]''' - blabla (short description) ''Read more about it...'' (link to another page)
 
  
 
== Research topics Reinhard group ==
 
== Research topics Reinhard group ==
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'''Topic C''' - labla (short description) ''Read more about it...'' (link to another page)
 
'''Topic C''' - labla (short description) ''Read more about it...'' (link to another page)
 
 
== Test ==
 

Revision as of 16:35, 4 May 2010

Research topics Marquardt group

OptomechanicsButton.png Optomechanics - Light interacting with nanomechanical motion has become a research topic drawing a lot of attention recently. Read more about our theory contributions in that domain.
DecoherenceButton.png Decoherence - A quantum system interacting with a noisy environment suffers decoherence, i.e. interference effects are destroyed. This is a topic important both for fundamental reasons (quantum-classical transition, quantum measurement, characterizing interaction effects), as well as for possible applications (sensitive measurements and quantum information processing).
CircuitQEDButton.png Quantum electrodynamics in superconducting circuit - Microwave radiation interacting with a superconducting artificial atom on a chip.


Research topics Reinhard group

Topic A - labla (short description) Read more about it... (link to another page)

Topic B - labla (short description) Read more about it... (link to another page)

Topic C - labla (short description) Read more about it... (link to another page)