- qubits.
Qudits where the d-level
system is not an
exponent of 2
cannot be
mapped to
arrays of qubits. It is for
example possible to have 5-level
qudits. In...
-
transmons as well.
Transmons have been
explored for use as d-dimensional
qudits via the
additional energy levels that
naturally occur above the
qubit subspace...
-
state that
involves at
least three subsystems (particle states, qubits, or
qudits).
Named for the
three authors that
first described this state, the GHZ state...
- bit.
There is
ongoing work to
develop quantum computers using qutrits and
qudits in general. A
qutrit has
three orthonormal basis states or vectors, often...
- {\displaystyle d} -level
systems (generalized Gell-Mann
matrices acting on
qudits). Let E j k {\displaystyle E_{jk}} be the
matrix with 1 in the jk-th entry...
-
hartley (base 10) Data
storage bit (binary) trit (ternary) dit (decimal)
Quantum information qubit (binary)
qutrit (ternary)
qudit (d-dimensional) v t e...
-
hartley (base 10) Data
storage bit (binary) trit (ternary) dit (decimal)
Quantum information qubit (binary)
qutrit (ternary)
qudit (d-dimensional) v t e...
- {\displaystyle {\frac {F_{\rm {Q}}[\varrho ,J_{z}]}{N}}\leq k.} The
situation for
qudits[clarification needed] with a
dimension larger than d = 2 {\displaystyle...
- For qubits, it is s i ∈ { 0 , 1 } {\displaystyle s_{i}\in \{0,1\}} . For
qudits (d-level systems), it is s i ∈ { 0 , 1 , … , d − 1 } {\displaystyle s_{i}\in...
- also
proven undecidable in 2020 by
constructing a
chain of
interacting qudits divided into
blocks that gain
energy if and only if they
represent a full...
