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Trapped-ion quantum computer
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Mathematics
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Applied mathematics
Theoretical computer science
Quantum information science
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1970-01-01
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Quantum information science
Theoretical computer science
Applied mathematics
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Trapped ion quantum computer
by
Ciro Santilli
34
Updated
2024-11-19
Created
1970-01-01
View more
TODO understand.
Video 1.
Trapping Ions for Quantum Computing by Diana Craik (2019)
Source
.
A basic introduction, but very concrete, with only a bit of math it might be amazing:
youtu.be/j1SKprQIkyE?t=217
you need
ultra-high vacuum
youtu.be/j1SKprQIkyE?t=257
you put the
Calcium
on a "calcium oven", heat it up, and make it evaporates a little bit
youtu.be/j1SKprQIkyE?t=289
you need
lasers
. You shine the laser on the calcium atom to eject one of the two valence electrons from it. Though e.g.
Universal Quantum
is trying to do away with them, because alignment for thousands or millions of particles would be difficult.
youtu.be/j1SKprQIkyE?t=518
keeping all surrounding electrodes positive would be unstable. So they instead alternate electrode quickly between plus and minus
youtu.be/j1SKprQIkyE?t=643
talks about the alternative, of doing it just with electrodes on a chip, which is easier to manufacture. They fly at about 100 microns above the trap. And you can have multiple ions per chip.
youtu.be/j1SKprQIkyE?t=1165
using
microwaves
you can flip the
spin
of the
electron
, or put it into a superposition. From more reading, we understand that she is talking about a
hyperfine transition
, which often happen in the
microwave
area.
youtu.be/j1SKprQIkyE?t=1210
talks about making
quantum gates
. You have to put the ions into a
magnetic field
at one of the two
resonance frequencies
of the system. Presumably what is meant is an inhomogenous magnetic field as in the
Stern-Gerlach experiment
.
This is the hard and interesting part. It is not clear why the atoms become coupled in any way. Is it due to electric repulsion?
She is presumably describing the
Cirac–Zoller CNOT gate
.
Sounds complicated, several technologies need to work together for that to work! Videos of ions moving are from
www.physics.ox.ac.uk/research/group/ion-trap-quantum-computing
.
A major flaw of this presentation is not explaining the
readout
process.
Video 2.
How To Trap Particles in a Particle Accelerator by the
Royal Institution
(2016)
Source
. Demonstrates trapping pollen particles in an alternating field.
Video 3.
Ion trapping and quantum gates by Wolfgang Ketterle (2013)
Source
.
youtu.be/lJOuPmI--5c?t=1601
Cirac–Zoller CNOT gate
was the first 2 qubit gate. Explains it more or less.
Video 4.
Introduction to quantum optics by Peter Zoller (2018)
Source
. THE Zoller from
Cirac–Zoller CNOT gate
talks about his gate.
www.youtube.com/watch?v=W3l0QPEnaq0&t=427s
shows that the state is split between two options: center of mass mode (ions move in same direction), and strechmode (atoms move in opposite directions)
youtu.be/W3l0QPEnaq0?t=658
shows a schematic of the experiment
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