To break through the limitations of two-dimensional or three-dimensional Hilbert space

a quantum voting scheme based on

d

-dimensional three-particle entangled state was proposed

which was designed by using Shamir (

t

n

) threshold to meet the actual demand for voting. The scheme consists of four entities: the voting management center

the voting group

the scrutineer and the ballot counter

which work together to complete the voting. In this scheme

a

d

-dimensional quantum entanglement state is used to enhance the applicability

and the single particle is used as the voting carrier to improve the transmission efficiency. The correctness of the proposed scheme was verified by the exper

imental simulations on the IBM quantum cloud platform. Security analysis shows that the scheme meets the security requirements of voting schemes

and resists intercept-measure-resend attack

entangle-measure attack

and forgery attack. Performance analysis shows that with the increase of the number of participants

the scheme has higher qubit efficiency than other similar schemes.