Thursday, June 15, 2017

Thursday, June 15, 2017 — 2:00 PM EDT

Mode-selection, purification, and ultrafast manipulation of quantum light with nonlinear waveguide devices

John Donohue, University of Paderborn

The temporal structure of quantum light offers an intrinsically high-dimensional and robust platform for encoding quantum information. In particular, the time-frequency degree of freedom can be explored in the frame of pulsed temporal modes, the ultrafast analogy to spatial Hermite-Gauss or orbital angular momentum modes. These overlapping temporal modes are naturally compatible with waveguide devices and fibre infrastructure, but present unique challenges to fully explore and exploit.

S M T W T F S
28
29
30
31
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
1
  1. 2020 (21)
    1. October (1)
    2. September (3)
    3. August (2)
    4. June (4)
    5. April (1)
    6. March (3)
    7. February (5)
    8. January (2)
  2. 2019 (139)
    1. December (7)
    2. November (10)
    3. October (7)
    4. September (5)
    5. August (10)
    6. July (16)
    7. June (13)
    8. May (15)
    9. April (15)
    10. March (11)
    11. February (20)
    12. January (12)
  3. 2018 (144)
  4. 2017 (131)
    1. December (11)
    2. November (7)
    3. October (11)
    4. September (13)
    5. August (10)
    6. July (8)
    7. June (12)
    8. May (9)
    9. April (13)
    10. March (13)
    11. February (18)
    12. January (7)
  5. 2016 (88)
  6. 2015 (82)
  7. 2014 (94)
  8. 2013 (91)
  9. 2012 (122)
  10. 2011 (117)
  11. 2010 (41)
  12. 2009 (4)
  13. 2008 (1)
  14. 2005 (1)
  15. 2004 (3)