Quantum network node and protocols with multiple qubit species

What is claimed is: 1. A quantum computing system having a modular optical architecture, comprising: one or more first quantum networking nodes, each of the first quantum networking nodes including: multiple memory qubits, and one or more communication qubits, the multiple memory qubits and the one or more communication qubits in each of the first quantum networking nodes being made from different isotopes of a same species; one or more second quantum networking nodes, where each of the second quantum networking nodes includes: multiple memory qubits, and one or more communication qubits, the multiple memory qubits and the one or more communication qubits in each of the second quantum networking nodes being made from different species; and a photonic entangler optically coupled to each of the one or more first quantum networking nodes and each of the one or more second quantum networking nodes. 2. The quantum computing system of claim 1 , wherein the different isotopes of the same species include different Ba isotopes. 3. The quantum computing system of claim 2 , wherein the different Ba isotopes are from multiple Ba isotopes including at least 138Ba, 137Ba, and 133Ba. 4. The quantum computing system of claim 1 , wherein the different species include Yb as one species and Ba as another species. 5. The quantum computing system of claim 1 , wherein each of the first quantum networking nodes includes an ion trap, and the multiple memory qubits and the one or more communication qubits of each of the first quantum networking nodes are ions trapped in the corresponding ion trap. 6. The quantum computing system of claim 1 , wherein each of the second quantum networking nodes includes an ion trap, and the multiple memory qubits and the one or more communication qubits of each of the second quantum networking nodes are ions trapped in the corresponding ion trap. 7. The quantum computing system of claim 1 , wherein one of the one or more communication qubits of one of the first quantum networking nodes is entangled with one of the one or more communication qubits of one of the second quantum networking nodes. 8. The quantum computing system of claim 1 , wherein one of the one or more communication qubits of one of the first quantum networking nodes is entangled with one of the one or more communication qubits of another one of the first quantum networking nodes. 9. The quantum computing system of claim 1 , wherein one of the one or more communication qubits of one of the second quantum networking nodes is entangled with one of the one or more communication qubits of another one of the second quantum networking nodes. 10. The quantum computing system of claim 1 , wherein the photonic entangler is optically coupled to each of the one or more first quantum networking nodes and each of the one or more second quantum networking nodes via optical fibers configured to operate at an optical communications spectrum. 11. A quantum computing system having a modular optical architecture, comprising: one or more first quantum networking nodes, each of the first quantum networking nodes including: multiple memory qubits, and one or more communication qubits, the multiple memory qubits and the one or more communication qubits in each of the first quantum networking nodes being made from a first set of different species; one or more second quantum networking nodes, where each of the second quantum networking nodes includes: multiple memory qubits, and one or more communication qubits, the multiple memory qubits and the one or more communication qubits in each of the second quantum networking nodes being made from a second set of different species different from the first set of different species; and a photonic entangler optically coupled to each of the one or more first quantum networking nodes and each of the one or more second quantum networking nodes. 12. The quantum computing system of claim 11 , wherein the first set of different species includes Yb as one species and Ba as another species. 13. The quantum computing system of claim 11 , wherein each of the first quantum networking nodes includes an ion trap, and the multiple memory qubits and the one or more communication qubits of each of the first quantum networking nodes are ions trapped in the corresponding ion trap. 14. The quantum computing system of claim 11 , wherein each of the second quantum networking nodes includes an ion trap, and the multiple memory qubits and the one or more communication qubits of each of the second quantum networking nodes are ions trapped in the corresponding ion trap. 15. The quantum computing system of claim 11 , wherein one of the one or more communication qubits of one of the first quantum networking nodes is entangled with one of the one or more communication qubits of one of the second quantum networking nodes. 16. A quantum computing system having a modular optical architecture, comprising: one or more first quantum networking nodes, each of the first quantum networking nodes including: multiple memory qubits, and one or more communication qubits, the multiple memory qubits and the one or more communication qubits in each of the first quantum networking nodes being made from different isotopes of a same first species; one or more second quantum networking nodes, where each of the second quantum networking nodes includes: multiple memory qubits, and one or more communication qubits, the multiple memory qubits and the one or more communication qubits in each of the second quantum networking nodes being made from different isotopes of a same second species; and a photonic entangler optically coupled to each of the one or more first quantum networking nodes and each of the one or more second quantum networking nodes. 17. The quantum computing system of claim 16 , wherein the different isotopes of the same first species includes a pair of different Ba isotopes, the pair of different Ba isotopes being from multiple Ba isotopes including at least 138Ba, 137Ba, and 133Ba. 18. The quantum computing system of claim 16 , wherein each of the first quantum networking nodes includes an ion trap, and the multiple memory qubits and the one or more communication qubits of each of the first quantum networking nodes are ions trapped in the corresponding ion trap. 19. The quantum computing system of claim 16 , wherein each of the second quantum networking nodes includes an ion trap, and the multiple memory qubits and the one or more communication qubits of each of the second quantum networking nodes are ions trapped in the corresponding ion trap. 20. The quantum computing system of claim 16 , wherein one of the one or more communication qubits of one of the first quantum networking nodes is entangled with one of the one or more communication qubits of one of the second quantum networking nodes.