BondGate

BondGate objects represent a quantum "gate" acting on a nearest-neighbor bond of a 1D system. Currently, the associated gateTEvol function of ITensor assumes that sites of a BondGate are neighbors along a 1D ordering of the sites of a system, so please only make BondGates which have this property.

For an example of using BondGate in conjunction with the gateTEvol function, please see this code formula page.

Examples

int N = 100;
auto sites = SpinHalf(N);

// Make an ITensor "hterm" which is the term
// of the Heisenberg model acting on spins 
// 2 and 3:
auto hterm = op(sites,"Sz",2)*op(sites,"Sz",3);
hterm += 0.5*op(sites,"S+",2)*op(sites,"S-",3);
hterm += 0.5*op(sites,"S-",2)*op(sites,"S+",3);

// Make a BondGate which acts as the operator
// exp(-i * hterm * tstep/2)
auto real_h23 = BondGate(sites,2,3,BondGate::tReal,tstep/2.,hterm);

// Make a BondGate which acts as the operator
// exp(-hterm * tstep/2)
auto imag_h23 = BondGate(sites,2,3,BondGate::tImag,tstep/2.,hterm);

// Make a BondGate which swaps sites 7 and 8
auto swap78 = BondGate(sites,7,8);

Constructors

  • BondGate(SiteSet const& sites,int i1,int i2, BondGate::Type type, Real tau, ITensor bondH)

    Construct a BondGate which acts as the real or imaginary time-evolution operator for the Hamiltonian term bondH over the time interval tau. The integers i1 and i2 must correspond to the indices of the provided SiteSet sites which match the indices of the provided ITensor bondH.

    The argument type one of the following:

    • BondGate::tReal
    • BondGate::tImag

    If the type is BondGate::tReal, the BondGate acts as the operator exp(-i * tau * bondH). If the type is BondGate::tImag, the BondGate acts as the operator exp(-tau * bondH).

  • BondGate(SiteSet const& sites,int i1,int i2)

    Construct a BondGate which swaps sites i1 and i2 when acting on a tensor with indices sites(i1) and sites(i2). The resulting BondGate can be passed as part of a container of gates to the gateTEvol function for implementing MPS time evolution algorithms using swap gates as a method to time evolve under Hamiltonians which are not nearest-neighbor in 1D.

Accessor Methods

  • .gate() -> ITensor

    Obtain the gate stored within this BondGate, as an ITensor.

  • .i1() -> int

    Obtain the number of the first site on which this BondGate acts.

  • .i2() -> int

    Obtain the number of the second site on which this BondGate acts.

  • .type() -> BondGate::Type

    Obtain the type of this BondGate.

Operators

  • operator*(BondGate const& G, ITensor T) -> ITensor
    operator*(ITensor T, BondGate const& G) -> ITensor

    Contract a BondGate with an ITensor. The result is the same as doing G.gate() * T, that is, retrieving the gate stored within the BondGate and contracting it with the ITensor T.


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