Sharing of physical random channel resources among different radio access technologies

What is claimed is: 1. A method for a network node in a communication network, the method comprising: receiving a physical random access channel, PRACH, signal from a wireless device; correlating the PRACH signal with one of at least two orthogonal sequences from a common set of sequences shared among a first radio access technology, RAT, and a second RAT, the common set of sequences being partitioned based at least on a ratio of bandwidth parts, BWPs, associated with second RAT wireless devices to a total bandwidth of shared spectrum; and determining whether the wireless device is operating according to one of the first RAT and the second RAT based at least in part on the correlation. 2. The method of claim 1 , wherein a first set of sequences of the common set of sequences are assigned to first RAT wireless devices and a second set of sequence of the common set of sequence are assigned to second RAT wireless devices, the first set of sequences being interleaved with the second set of sequences to maintain orthogonality between the first and second set of sequences. 3. The method of claim 2 , wherein the first set of sequences are assigned to even subcarrier indices and the second set of sequences are assigned to odd subcarrier indices. 4. The method of claim 3 , wherein the common set of sequences correspond to common sequences among at least one PRACH format for the first RAT and at least one PRACH format for the second RAT. 5. The method of claim 2 , wherein a first set of sequences of the common set of sequences are assigned to a first set of first RAT beams and a second set of sequence of the common set of sequence are assigned to a second set of second RAT beams. 6. The method of claim 5 , wherein the common set of sequences correspond to common sequences among at least one PRACH format for the first RAT and at least one PRACH format for the second RAT. 7. The method of claim 2 , wherein the common set of sequences correspond to common sequences among at least one PRACH format for the first RAT and at least one PRACH format for the second RAT. 8. The method of claim 1 , further comprising: determining a first region in a first RAT cell fails to overlap with second region in a second RAT cell; and configuring the first region in the first RAT cell and the second region in the second RAT cell to reuse sequences. 9. The method of claim 1 , wherein the common set of sequences correspond to common sequences among at least one PRACH format for the first RAT and at least one PRACH format for the second RAT. 10. A network node, comprising: processing circuitry configured to: receive a physical random access channel, PRACH, signal from a wireless device; correlate the PRACH signal with one of at least two orthogonal sequences from a common set of sequences shared among a first radio access technology, RAT, and a second RAT, the common set of sequences being partitioned based at least on a ratio of bandwidth parts, BWPs, associated with second RAT wireless devices to a total bandwidth of shared spectrum; and determine whether the wireless device is operating according to one of the first RAT and the second RAT based at least in part on the correlation. 11. The network node of claim 10 , wherein a first set of sequences of the common set of sequences are assigned to first RAT wireless devices and a second set of sequence of the common set of sequence are assigned to second RAT wireless devices, the first set of sequences being interleaved with the second set of sequences to maintain orthogonality between the first and second set of sequences. 12. The network node of claim 11 , wherein the first set of sequences are assigned to even subcarrier indices and the second set of sequences are assigned to odd subcarrier indices. 13. The network node of claim 12 , wherein the common set of sequences correspond to common sequences among at least one PRACH format for the first RAT and at least one PRACH format for the second RAT. 14. The network node of claim 11 , wherein a first set of sequences of the common set of sequences are assigned to a first set of first RAT beams and a second set of sequence of the common set of sequence are assigned to a second set of second RAT beams. 15. The network node of claim 14 , wherein the common set of sequences correspond to common sequences among at least one PRACH format for the first RAT and at least one PRACH format for the second RAT. 16. The network node of claim 11 , wherein the common set of sequences correspond to common sequences among at least one PRACH format for the first RAT and at least one PRACH format for the second RAT. 17. The network node of claim 10 , wherein the processing circuitry is further configured to: determine a first region in a first RAT cell fails to overlap with second region in a second RAT cell; and configure the first region in the first RAT cell and the second region in the second RAT cell to reuse sequences. 18. The network node of claim 10 , wherein the common set of sequences correspond to common sequences among at least one PRACH format for the first RAT and at least one PRACH format for the second RAT. 19. A wireless device configured to communicate with a network node, the wireless device comprising: processing circuitry configured to: apply at least one of at least two orthogonal sequences from a common set of sequences shared among a first radio access technology, RAT, and a second RAT to a physical random access channel, PRACH, signal based on whether the wireless device is operating according the first radio access technology, RAT, or the second RAT to produce an encoded PRACH signal, the applying of the at least one orthogonal sequence enabling sharing of PRACH resources between the first and second RATs, the common set of sequences being partitioned based at least on a ratio of bandwidth parts, BWPs, associated with second RAT wireless devices to a total bandwidth of shared spectrum; and transmit the encoded PRACH signal to the network node. 20. A method implemented by a wireless device that is configured to communicate with a network node, the method comprising: applying at least one of at least two orthogonal sequences from a common set of sequences shared among a first radio access technology, RAT, and a second RAT to a physical random access channel, PRACH, signal based on whether the wireless device is operating according the first radio access technology, RAT, or the second RAT to produce an encoded PRACH signal, the applying of the at least one orthogonal sequence enabling sharing of PRACH resources between the first and second RATs, the common set of sequences being partitioned based at least on a ratio of bandwidth parts, BWPs, associated with second RAT wireless devices to a total bandwidth of shared spectrum; and transmitting the encoded PRACH signal to the network node.