(My answer fleshes out the first few comments, just to provide details and some context.)
SQL indexes are used to "look up" specific values. With an index on AD_ARBUM, SQL will find all rows with a specifc value (say, 12) in just about no time (unless, of course, half the table's rows are set to 12, in which case you'll have to read half the table). Your query filter is based on a formula based on several columns, none of which are indexed, so all those columns--across all 1.2 millions rows--will need to be read, to evaluate which to include and which not. If you built an index across all three of your formula columns
(AD_SHBETSA, AD_AMBIDSHBETSA, AD_ASKATSHBETSA), it would still have to do the same mathematical formula on each. If you built an index on the formula itself
CREATE nonclustered INDEX IX_lmoko__ThreeColumnFormula
on lmokok (AD_SHBETSA + AD_AMBIDSHBETSA + AD_ASKATSHBETSA
then SQL could search and filter based on the value you care about, and should be much faster (presuming, of course, that you don't end up returning all the rows after all.) The downside of having such an index is that you have to maintain the index; it will take up space, it can slow down inserts and updates, and if it's only used for a query you run once a month (as opposed to once a minute) that cost to performance and resources might be too high.
Also, as pointed out, there might be other factors involved, from poor hardware to resource contention to overall space (how wide is a row? How many columns are actually involved? Are those numeric values, or does SQL have to convert from strings? Lots of potential gotchas we can't know about without looking the system over)