Dear PhD students,
As previously announced, Borja Peropadre is visiting our group this week.
We am planning a group discussion between Borja and our grad students.
Alan and I consider it important for students to practice in scientific conversations with
guests.
I know that some of you are busy with teaching or students so, please, let me know when
you can be available:
Tuesday afternoon 14:30-16:30 (or shorter)
Thursday afternoon 10:30-12:00
Thursday afternoon 14:30-16:30
Please, let me know.
Gian Giacomo
________________________________
From: aspuru-list-bounces(a)lists.fas.harvard.edu
[aspuru-list-bounces(a)lists.fas.harvard.edu] on behalf of Guerreschi, Gian
[guerreschi(a)fas.harvard.edu]
Sent: Monday, March 25, 2013 5:46 PM
To: A-G Group [aspuru-list@lists.fas.harvard.edu]
Subject: [Aspuru-Guzik group list] IMPORTANT: Talk by Borja Peropadre POST-PONED:
03-29-2013 at 11:30
Dear all,
It is a pleasure to announce Borja's talk on Friday, March 29th, at 11:30.
Borja Peropadre is a PhD student in the group of Juan Jose Garcia-Ripoll at CSIC in Madrid
(Spain).
http://quinfog.iff.csic.es/borja-peropadre
He will visit our group this week, March 26th-29th.
He is interested in our research and in discussing with us, therefore I will organize a
schedule with private discussion on Tuesday and on Thursday.
Please, let me know if you are interested in discussing with Borja (otherwise I will try
to select a representative sample based on our research topics).
-- Title:
Controlling quantum systems in circuit QED designs.
-- Abstract:
The filed of circuit QED is widely considered the on-chip realization of cavity QED, where
superconducting artificial atoms and microwave photons interact at the quantum level. The
large tunability attainable in these solid-state devices, has made possible the
achievement of the the so-called strong and ultrastrong coupling between light and
matter.
In this talk, I will show how we can take advantage of this large degree of control in
circuit QED to manipulate the light-matter interaction, and ultimately the microwave
photons in a resonator or propagating in an open transmission line. This offers a wide
range of applications, ranging from quantum communications, condensed matter physics, to
simulations in Quantum Field Theory.
Best regards,
Gian Giacomo