Reducing hot electron injection type of read disturb during read recovery phase in 3D memory

We claim: 1. An apparatus, comprising: a plurality of strings extending vertically in a stack, each string comprising a source end, a source side select gate transistor at the source end, a drain end, a dummy memory cell adjacent to a source side data memory cell, and a plurality of non-source side data memory cells between the source side data memory cell and the drain end; a dummy word line connected to the dummy memory cells; a plurality of data word lines comprising a source side data word line connected to the source side data memory cell and non-source side data word lines connected to the non-source side data memory cells; and a control circuit, the control circuit configured to apply a voltage at a control gate read level to a selected data word line among the plurality of data word lines while sensing memory cells connected to the selected data word line and while applying a voltage at a read pass level to unselected data word lines among the plurality of data word lines, followed by ramping down a voltage of the non-source side data word line to a steady state voltage, followed by, after the ramping down the voltage of the non-source side data word line to the steady state voltage, ramping down a voltage of the source side data word line and the voltage of the dummy word line to the steady state voltage. 2. The apparatus of claim 1 , wherein: the selected data word line is the source side data word line. 3. The apparatus of claim 2 , wherein: the control circuit is configured to increase the voltage of the source side data word line from the control gate read level to the read pass level after the sensing, and to ramp down the voltage of the source side data word line from the read pass level. 4. The apparatus of claim 1 , wherein: the selected data word line is one of the non-source side data word lines. 5. The apparatus of claim 1 , further comprising: in each string, between the source end and the dummy memory cell, an additional dummy memory cell; and an additional dummy word line connected to the additional dummy memory cells, wherein the control circuit is configured to ramp down a voltage of the additional dummy word line from the read pass level concurrently with the ramping down of the voltage of the source side data word line. 6. The apparatus of claim 1 , wherein: each string comprises a channel material; and for each string, the channel material comprises an interface between epitaxial silicon and polysilicon between the dummy memory cell and the source side select gate transistor. 7. The apparatus of claim 1 , wherein: the ramping down of the voltage of the non-source side data word and the ramping down of the voltage of the source side data word line, is from the read pass level. 8. The apparatus of claim 7 , wherein: the ramping down of the voltage of the non-source side data word lines and the ramping down of the voltage of the source side data word line, is to 0 V. 9. The apparatus of claim 1 , wherein: one of the data word lines is adjacent to the source side data word line; and the ramping down of the voltage of the non-source side data word lines causes at least some memory cells connected to the one of the data word lines to transition from a conductive state to a non-conductive state. 10. The apparatus of claim 1 , wherein: each string comprises a drain side select gate transistor; and the control circuit is configured to ramp down a voltage of the source side select gate transistors and the drain side select gate transistors concurrently and no later than the ramping down the voltage of the non-source side word lines. 11. The apparatus of claim 1 , wherein: the control circuit operates according to a clock and is configured to perform the ramping down of the voltage of the source side data word line at least one clock cycle after the ramping down of the voltage of the non-source side data word lines. 12. The apparatus of claim 1 , wherein: the control circuit is configured to perform the sensing of the memory cells connected to the selected data word line in connection with a read operation or with a verify test of a programming operation. 13. The apparatus of claim 1 , wherein: the stack comprises alternating dielectric layers and conductive layers; and the dummy word line and the plurality of data word lines are provided by the conductive layers. 14. A method, comprising: applying a voltage to a selected data word line in a block while sensing memory cells connected to the selected data word line and while applying a voltage at a read pass level to unselected data word lines in the block and to a dummy word line in the block, wherein the dummy word line is at a source side of the block; subsequently ramping down a voltage applied to data word lines which are not adjacent to the dummy word line to a steady state voltage; and subsequently, after the ramping down the voltage applied to the data word lines which are not adjacent to the dummy word line to the steady state voltage, ramping down a voltage applied to the dummy word line and a voltage applied to a data word line which is adjacent to the dummy word line to the steady state voltage. 15. The method of claim 14 , wherein: the ramping down of the voltage applied to the data word line which is adjacent to the dummy word line and the voltage applied to the data word line which is adjacent to the dummy word line after the ramping down of the voltage applied to the data word lines which are not adjacent to the dummy word line, occurs independently of whether the selected data word line is the data word line which is adjacent to the dummy word line. 16. The method of claim 14 , wherein: the memory cells connected to the selected data word line and memory cells connected to the unselected word line are arranged in string; each string comprises memory cells between a source side select gate transistor and a drain side select gate transistor; and the method further comprises ramping down voltages of the source side select gate transistors and the drain side select gate transistors no later than the ramping down of the voltage applied to the data word lines which are not adjacent to the dummy word line. 17. An apparatus, comprising: means for sensing data memory cells in a block; and means for ramping down a voltage of a source side data word line to a steady state voltage concurrent with a ramping down of a dummy word line adjacent to the source side data word line to the steady state voltage, after ramping down a voltage of other data word lines in a block to the steady state voltage, and after the sensing of the data memory cells, wherein the source side data word line is at a source side of the block. 18. The apparatus of claim 17 , wherein: the means for ramping is independent of whether the data memory cells which are sensed are connected to the source side data word line. 19. The apparatus of claim 17 , further comprising: means for ramping down a voltage of a source side dummy word line in the block concurrent with the ramping down of the voltage of the source side data word line. 20. The apparatus of claim 1 , wherein: the ramping down of the voltage of the source side data word line is concurrent with the ramping down of the voltage of the dummy word line.