State-to-state transfer in a two-level quantum system
The goal of this example is misimise the cost
\[\mathcal{C} = |\langle \uparrow |\psi(t_f)\rangle |^2 + \frac{\gamma}2 \int_0^{t_f}u(t)^2\mathrm{d}t\]
while we steer the system bettwen to states, $|\uparrow\;\rangle$ to $|\downarrow\;\rangle$, described by following Hamiltonian:
\[H(t) = \frac{\Delta}{2} \sigma_z + \frac{u(t)}{2} \sigma_x\]
where
- The final time $t_f$ is set equalt to $2\pi/\sqrt{1+\Delta^2}$;
\[\psi(t_f)\]
is the state at the final time $t_f$;\[\gamma\]
is a factor to adjust the relative weight of the two terms in the cost\[\Delta\]
represents the frequency offset;\[u(t) \in [-u_0,u_0]\]
is the control;\[\sigma_z,\sigma_x\]
are Pauli matrices.
The dynamics is governed by the Schrödinger equation $ i\hbar |\dot{\psi}\rangle = H(t) |\psi\rangle. $ However, ths states here belong to a Hilber space $\mathcal{H} = \mathbb{C}^2$, which is not easy to visuzalize. To improve that, we can tranform in Bloch representation to have a real system. It can be shown applinng $\dot x_j = [H,\sigma_j ]$, where $[ \cdot,\cdot]$ denote the Lie bracket. In other words,
\[ \begin{cases} \dot x = -\Delta \cdot y\\ \dot y = \Delta \cdot x - u \cdot z\\ \dot z = u \cdot y \end{cases}\]
with $|\uparrow\;\rangle = (0,0,1)$ to $|\downarrow\;\rangle= (0,0,-1)$. Furthermore, we will set $\Delta = 0.5$ and $p_0= 0.1$.
using OptimalControl
using OrdinaryDiffEq
using LinearAlgebra
using NLPModelsIpopt
q0 = [0.0, 0.0, 1.0]
qf = [0.0, 0.0, -1.0]
Δ = 0.5
tf = 2 * π / (√( 1 + Δ^2))
γ = 0.1
ocp1 = @def begin
t ∈ [0, tf], time
q = [x, y, z] ∈ R³, state
u ∈ R, control
q(0) == q0
∂(x)(t) == - Δ * y(t)
∂(y)(t) == Δ * x(t) - u(t) * z(t)
∂(z)(t) == u(t) * y(t)
sum((q(tf) - qf).^2) + (γ / 2) * ∫(u(t)^2) → min
endDirect solve
N = 100
direct_sol1 = solve(ocp1, grid_size=N)▫ This is OptimalControl version v1.1.6 running with: direct, adnlp, ipopt.
▫ The optimal control problem is solved with CTDirect version v0.17.4.
┌─ The NLP is modelled with ADNLPModels and solved with NLPModelsIpopt.
│
├─ Number of time steps⋅: 100
└─ Discretisation scheme: midpoint
▫ This is Ipopt version 3.14.19, running with linear solver MUMPS 5.8.1.
Number of nonzeros in equality constraint Jacobian...: 1603
Number of nonzeros in inequality constraint Jacobian.: 0
Number of nonzeros in Lagrangian Hessian.............: 503
Total number of variables............................: 403
variables with only lower bounds: 0
variables with lower and upper bounds: 0
variables with only upper bounds: 0
Total number of equality constraints.................: 303
Total number of inequality constraints...............: 0
inequality constraints with only lower bounds: 0
inequality constraints with lower and upper bounds: 0
inequality constraints with only upper bounds: 0
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
0 1.2328099e+00 9.00e-01 1.17e-02 0.0 0.00e+00 - 0.00e+00 0.00e+00 0
1 3.4017483e+00 2.13e-02 1.85e+00 -11.0 9.00e-01 0.0 1.00e+00 1.00e+00h 1
2 3.9540847e+00 1.32e-03 1.14e+00 -11.0 4.27e-01 0.4 1.00e+00 1.00e+00h 1
3 3.9449068e+00 1.79e-05 3.91e-02 -11.0 2.96e-02 -0.1 1.00e+00 1.00e+00h 1
4 3.9192381e+00 1.13e-04 1.57e-02 -11.0 5.31e-02 -0.5 1.00e+00 1.00e+00h 1
5 3.8962038e+00 5.08e-03 4.32e-02 -11.0 9.82e+00 -1.0 1.00e+00 3.12e-02f 6
6 3.4793145e+00 2.47e-03 6.02e-02 -11.0 2.30e-01 -0.6 1.00e+00 1.00e+00f 1
7 2.9665605e+00 2.38e-02 1.22e-01 -11.0 2.87e+00 -1.1 1.00e+00 2.50e-01f 3
8 2.1466343e+00 5.14e-02 1.49e-01 -11.0 1.27e+01 -1.5 1.00e+00 6.25e-02f 5
9 4.7586995e-01 1.71e-02 8.43e-02 -11.0 8.95e-01 -1.1 1.00e+00 1.00e+00f 1
iter objective inf_pr inf_du lg(mu) ||d|| lg(rg) alpha_du alpha_pr ls
10 2.5464439e-01 8.87e-03 1.22e-02 -11.0 5.49e-01 - 1.00e+00 1.00e+00h 1
11 2.1583590e-01 3.96e-02 1.25e-02 -11.0 1.47e+00 - 1.00e+00 1.00e+00h 1
12 1.9565085e-01 3.84e-03 1.18e-03 -11.0 3.85e-01 - 1.00e+00 1.00e+00h 1
13 1.9743698e-01 1.43e-04 2.70e-04 -11.0 7.77e-02 - 1.00e+00 1.00e+00h 1
14 1.9748158e-01 1.72e-05 8.34e-06 -11.0 3.49e-02 - 1.00e+00 1.00e+00h 1
15 1.9747207e-01 2.56e-09 8.79e-10 -11.0 2.52e-04 - 1.00e+00 1.00e+00h 1
Number of Iterations....: 15
(scaled) (unscaled)
Objective...............: 1.9747206792824548e-01 1.9747206792824548e-01
Dual infeasibility......: 8.7927574943247322e-10 8.7927574943247322e-10
Constraint violation....: 2.5610386034102817e-09 2.5610386034102817e-09
Variable bound violation: 0.0000000000000000e+00 0.0000000000000000e+00
Complementarity.........: 0.0000000000000000e+00 0.0000000000000000e+00
Overall NLP error.......: 2.5610386034102817e-09 2.5610386034102817e-09
Number of objective function evaluations = 29
Number of objective gradient evaluations = 16
Number of equality constraint evaluations = 30
Number of inequality constraint evaluations = 0
Number of equality constraint Jacobian evaluations = 16
Number of inequality constraint Jacobian evaluations = 0
Number of Lagrangian Hessian evaluations = 15
Total seconds in IPOPT = 5.262
EXIT: Optimal Solution Found.using Plots
plt = plot(direct_sol1)Indirect solve
We can also solve the problem with shooting thechincs. Using the Pontryagin’s Maximum Principle, the pseudo-Hamiltonian is given by
\[H_p(x, p, u) = \Delta(p_yx - p_x y) + u(p_z y - p_yz)+ \mathcal{V} \frac{\gamma}{2} u^2,\]
where $p = (p_x, p_y,p_z)$ is the costate vector. The optimal control is given by the maximization of $H_p$:
\[ u = \frac{p_zy - p_yz}{\gamma}.\]
Define the packages:
using MINPACKDefine the control and Hamiltonian flow:
# Control
u(q, p) = (p[3] * q[2] - p[2] * q[3]) / γ
# Hamiltonian flow
f = Flow(ocp1, u)The shooting function enforces the conditions:
\[ S : \mathbb{R}^3 \longrightarrow \mathbb{R}^3, \\ S(p_0) := p(t_f,q_0,p_0) + 2(q(t_f,x_0,p_f)-q_f)\]
p0 = direct_sol1.costate(0);
function shoot!(s, p0)
qqf, pf = f(0, q0, p0, tf)
s[1:3] .= pf + 2(qqf - qf)
return nothing
end
s = similar(p0, 3)
shoot!(s, p0)
println("\nNorm of the shooting function: ‖s‖ = ", norm(s), "\n")
Norm of the shooting function: ‖s‖ = 0.14202210597785073We are now ready to solve the shooting equations:
using DifferentiationInterface
import ForwardDiff
backend = AutoForwardDiff();
ξ = p0 # initial guess
nle! = (s, ξ) -> shoot!(s, ξ)
jnle! = (js, ξ) -> jacobian!(nle!, similar(ξ), js, backend, ξ)
indirect_sol = fsolve(nle!, jnle!, ξ; show_trace=true)
p0 = indirect_sol.xIter f(x) inf-norm Step 2-norm Step time
------ -------------- -------------- --------------
1 1.106012e-01 0.000000e+00 0.221316
2 7.370664e-03 1.073115e-05 5.646616
3 3.931570e-03 6.277312e-06 0.006357
4 3.418731e-05 6.585040e-06 0.007321
5 5.918382e-07 2.865815e-10 0.006292
6 1.451672e-08 1.679182e-13 0.006444
7 1.157234e-10 1.531461e-16 0.006877
8 9.989128e-13 1.323170e-20 0.006242shoot!(s, p0)
println("\nNorm of the shooting function: ‖s‖ = ", norm(s), "\n")
Norm of the shooting function: ‖s‖ = 1.3886406424534495e-12Finally, we reconstruct and plot the solution obtained by the indirect method:
flow_sol = f((0, tf), q0, p0)
plot!(plt, flow_sol, solution_label="(indirect)")Trjajectorie in the Bloch sphere
using Plots
x = []
y = []
z = []
for t in time_grid(flow_sol)
push!(x, state(flow_sol)(t)[1])
push!(y, state(flow_sol)(t)[2])
push!(z, state(flow_sol)(t)[3])
end
gr()
θ = 0:0.01:π
φ = 0:0.01:2π
xs = [sin(t) * cos(p) for t in θ, p in φ]
ys = [sin(t) * sin(p) for t in θ, p in φ]
zs = [cos(t) for t in θ, p in φ]
p = plot(xs, ys, zs,
st=:surface,
color=:lightblue,
alpha=0.5,
legend=false,
axis = nothing,
background_color=:transparent,
grid=false,
)
plot!(x, y, z, lw=2, color=:blue, label="Trajectory")
scatter!([x[1]], [y[1]], [z[1]], markersize=2, color=:green, label="Start")
scatter!([x[end]], [y[end]], [z[end]], markersize=2, color=:red, label="End")
Reproducibility
_downloads_toml(".") # hiderYou can download the exact environment used to build this documentation:
📦 Project.toml - Package dependencies
📋 Manifest.toml - Complete dependency tree with versions
ℹ️ Version info
Julia Version 1.12.1
Commit ba1e628ee49 (2025-10-17 13:02 UTC)
Build Info:
Official https://julialang.org release
Platform Info:
OS: Linux (x86_64-linux-gnu)
CPU: 4 × AMD EPYC 7763 64-Core Processor
WORD_SIZE: 64
LLVM: libLLVM-18.1.7 (ORCJIT, znver3)
GC: Built with stock GC
Threads: 1 default, 1 interactive, 1 GC (on 4 virtual cores)
Environment:
JULIA_PKG_SERVER_REGISTRY_PREFERENCE = eager📦 Package status
Status `~/work/sts2levelqs.jl/sts2levelqs.jl/docs/Project.toml`
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Status `~/work/sts2levelqs.jl/sts2levelqs.jl/docs/Manifest.toml`
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[d2c73de3] GR_jll v0.73.18+0
[b0724c58] GettextRuntime_jll v0.22.4+0
[61579ee1] Ghostscript_jll v9.55.1+0
[020c3dae] Git_LFS_jll v3.7.0+0
[f8c6e375] Git_jll v2.51.3+0
[7746bdde] Glib_jll v2.86.0+0
[3b182d85] Graphite2_jll v1.3.15+0
[017b0a0e] HSL_jll v4.0.4+0
[2e76f6c2] HarfBuzz_jll v8.5.1+0
[e33a78d0] Hwloc_jll v2.12.2+0
[1d5cc7b8] IntelOpenMP_jll v2025.2.0+0
[9cc047cb] Ipopt_jll v300.1400.1900+0
[aacddb02] JpegTurbo_jll v3.1.3+0
[c1c5ebd0] LAME_jll v3.100.3+0
[88015f11] LERC_jll v4.0.1+0
[1d63c593] LLVMOpenMP_jll v18.1.8+0
[dd4b983a] LZO_jll v2.10.3+0
[e9f186c6] Libffi_jll v3.4.7+0
[7e76a0d4] Libglvnd_jll v1.7.1+1
[94ce4f54] Libiconv_jll v1.18.0+0
[4b2f31a3] Libmount_jll v2.41.2+0
[89763e89] Libtiff_jll v4.7.2+0
[38a345b3] Libuuid_jll v2.41.2+0
[d00139f3] METIS_jll v5.1.3+0
[856f044c] MKL_jll v2025.2.0+0
[d7ed1dd3] MUMPS_seq_jll v500.800.100+0
[c8ffd9c3] MbedTLS_jll v2.28.10+0
[e7412a2a] Ogg_jll v1.3.6+0
[656ef2d0] OpenBLAS32_jll v0.3.29+0
[9bd350c2] OpenSSH_jll v10.2.1+0
[efe28fd5] OpenSpecFun_jll v0.5.6+0
[91d4177d] Opus_jll v1.5.2+0
[36c8627f] Pango_jll v1.56.4+0
⌅ [30392449] Pixman_jll v0.44.2+0
[c0090381] Qt6Base_jll v6.8.2+2
[629bc702] Qt6Declarative_jll v6.8.2+1
[ce943373] Qt6ShaderTools_jll v6.8.2+1
[e99dba38] Qt6Wayland_jll v6.8.2+2
⌅ [319450e9] SPRAL_jll v2025.5.20+0
[a44049a8] Vulkan_Loader_jll v1.3.243+0
[a2964d1f] Wayland_jll v1.24.0+0
⌅ [02c8fc9c] XML2_jll v2.13.9+0
[ffd25f8a] XZ_jll v5.8.1+0
[f67eecfb] Xorg_libICE_jll v1.1.2+0
[c834827a] Xorg_libSM_jll v1.2.6+0
[4f6342f7] Xorg_libX11_jll v1.8.12+0
[0c0b7dd1] Xorg_libXau_jll v1.0.13+0
[935fb764] Xorg_libXcursor_jll v1.2.4+0
[a3789734] Xorg_libXdmcp_jll v1.1.6+0
[1082639a] Xorg_libXext_jll v1.3.7+0
[d091e8ba] Xorg_libXfixes_jll v6.0.2+0
[a51aa0fd] Xorg_libXi_jll v1.8.3+0
[d1454406] Xorg_libXinerama_jll v1.1.6+0
[ec84b674] Xorg_libXrandr_jll v1.5.5+0
[ea2f1a96] Xorg_libXrender_jll v0.9.12+0
[a65dc6b1] Xorg_libpciaccess_jll v0.18.1+0
[c7cfdc94] Xorg_libxcb_jll v1.17.1+0
[cc61e674] Xorg_libxkbfile_jll v1.1.3+0
[e920d4aa] Xorg_xcb_util_cursor_jll v0.1.6+0
[12413925] Xorg_xcb_util_image_jll v0.4.1+0
[2def613f] Xorg_xcb_util_jll v0.4.1+0
[975044d2] Xorg_xcb_util_keysyms_jll v0.4.1+0
[0d47668e] Xorg_xcb_util_renderutil_jll v0.3.10+0
[c22f9ab0] Xorg_xcb_util_wm_jll v0.4.2+0
[35661453] Xorg_xkbcomp_jll v1.4.7+0
[33bec58e] Xorg_xkeyboard_config_jll v2.44.0+0
[c5fb5394] Xorg_xtrans_jll v1.6.0+0
[3161d3a3] Zstd_jll v1.5.7+1
[b792d7bf] cminpack_jll v1.3.12+0
[35ca27e7] eudev_jll v3.2.14+0
[214eeab7] fzf_jll v0.61.1+0
[a4ae2306] libaom_jll v3.13.1+0
[0ac62f75] libass_jll v0.17.4+0
[1183f4f0] libdecor_jll v0.2.2+0
[2db6ffa8] libevdev_jll v1.13.4+0
[f638f0a6] libfdk_aac_jll v2.0.4+0
[36db933b] libinput_jll v1.28.1+0
[b53b4c65] libpng_jll v1.6.50+0
[f27f6e37] libvorbis_jll v1.3.8+0
[009596ad] mtdev_jll v1.1.7+0
[1317d2d5] oneTBB_jll v2022.0.0+1
[1270edf5] x264_jll v10164.0.1+0
[dfaa095f] x265_jll v4.1.0+0
[d8fb68d0] xkbcommon_jll v1.9.2+0
[0dad84c5] ArgTools v1.1.2
[56f22d72] Artifacts v1.11.0
[2a0f44e3] Base64 v1.11.0
[ade2ca70] Dates v1.11.0
[8ba89e20] Distributed v1.11.0
[f43a241f] Downloads v1.6.0
[7b1f6079] FileWatching v1.11.0
[9fa8497b] Future v1.11.0
[b77e0a4c] InteractiveUtils v1.11.0
[ac6e5ff7] JuliaSyntaxHighlighting v1.12.0
[4af54fe1] LazyArtifacts v1.11.0
[b27032c2] LibCURL v0.6.4
[76f85450] LibGit2 v1.11.0
[8f399da3] Libdl v1.11.0
[37e2e46d] LinearAlgebra v1.12.0
[56ddb016] Logging v1.11.0
[d6f4376e] Markdown v1.11.0
[a63ad114] Mmap v1.11.0
[ca575930] NetworkOptions v1.3.0
[44cfe95a] Pkg v1.12.0
[de0858da] Printf v1.11.0
[3fa0cd96] REPL v1.11.0
[9a3f8284] Random v1.11.0
[ea8e919c] SHA v0.7.0
[9e88b42a] Serialization v1.11.0
[1a1011a3] SharedArrays v1.11.0
[6462fe0b] Sockets v1.11.0
[2f01184e] SparseArrays v1.12.0
[f489334b] StyledStrings v1.11.0
[fa267f1f] TOML v1.0.3
[a4e569a6] Tar v1.10.0
[8dfed614] Test v1.11.0
[cf7118a7] UUIDs v1.11.0
[4ec0a83e] Unicode v1.11.0
[e66e0078] CompilerSupportLibraries_jll v1.3.0+1
[deac9b47] LibCURL_jll v8.11.1+1
[e37daf67] LibGit2_jll v1.9.0+0
[29816b5a] LibSSH2_jll v1.11.3+1
[14a3606d] MozillaCACerts_jll v2025.5.20
[4536629a] OpenBLAS_jll v0.3.29+0
[05823500] OpenLibm_jll v0.8.7+0
[458c3c95] OpenSSL_jll v3.5.1+0
[efcefdf7] PCRE2_jll v10.44.0+1
[bea87d4a] SuiteSparse_jll v7.8.3+2
[83775a58] Zlib_jll v1.3.1+2
[8e850b90] libblastrampoline_jll v5.15.0+0
[8e850ede] nghttp2_jll v1.64.0+1
[3f19e933] p7zip_jll v17.5.0+2
Info Packages marked with ⌃ and ⌅ have new versions available. Those with ⌃ may be upgradable, but those with ⌅ are restricted by compatibility constraints from upgrading. To see why use `status --outdated -m`