NumericFields are indexed using a trie structure. The terms you see are part of it, but will not return results if you query for them.
Try indexing your NumericField with a precision step of Int32.MaxValue and the values will go away.
NumericField documentation
... Within Lucene, each numeric value is indexed as a trie structure, where each term is logically assigned to larger and larger pre-defined brackets (which are simply lower-precision representations of the value). The step size between each successive bracket is called the precisionStep, measured in bits. Smaller precisionStep values result in larger number of brackets, which consumes more disk space in the index but may result in faster range search performance. The default value, 4, was selected for a reasonable tradeoff of disk space consumption versus performance. You can use the expert constructor NumericField(String,int,Field.Store,boolean) if you'd like to change the value. Note that you must also specify a congruent value when creating NumericRangeQuery or NumericRangeFilter. For low cardinality fields larger precision steps are good. If the cardinality is < 100, it is fair to use Integer.MAX_VALUE, which produces one term per value. ...
More details on the precision step available in the NumericRangeQuery documentation:
Good values for precisionStep are depending on usage and data type:
• The default for all data types is 4, which is used, when no
precisionStep is given.
• Ideal value in most cases for 64 bit data
types (long, double) is 6 or 8.
• Ideal value in most cases for 32 bit
data types (int, float) is 4.
• For low cardinality fields larger
precision steps are good. If the cardinality is < 100, it is fair to use •Integer.MAX_VALUE (see below).
• Steps ≥64 for long/double and
≥32 for int/float produces one token per value in the index and
querying is as slow as a conventional TermRangeQuery. But it can be
used to produce fields, that are solely used for sorting (in this case
simply use Integer.MAX_VALUE as precisionStep). Using NumericFields
for sorting is ideal, because building the field cache is much faster
than with text-only numbers. These fields have one term per value and
therefore also work with term enumeration for building distinct lists
(e.g. facets / preselected values to search for). Sorting is also
possible with range query optimized fields using one of the above
precisionSteps.
EDIT
little sample, the index produced by this will show terms with value 8192, 9984, 1792, etc in luke, but using a range that would include them in the query doesnt produce results:
NumericField number = new NumericField("number", Field.Store.YES, true);
Field regular = new Field("normal", "", Field.Store.YES, Field.Index.ANALYZED);
IndexWriter iw = new IndexWriter(FSDirectory.GetDirectory("C:\\temp\\testnum"), new StandardAnalyzer(), true);
Document doc = new Document();
doc.Add(number);
doc.Add(regular);
number.SetIntValue(1);
regular.SetValue("one");
iw.AddDocument(doc);
number.SetIntValue(2);
regular.SetValue("one");
iw.AddDocument(doc);
number.SetIntValue(13);
regular.SetValue("one");
iw.AddDocument(doc);
number.SetIntValue(2000);
regular.SetValue("one");
iw.AddDocument(doc);
number.SetIntValue(9999);
regular.SetValue("one");
iw.AddDocument(doc);
iw.Commit();
IndexSearcher searcher = new IndexSearcher(iw.GetReader());
NumericRangeQuery rangeQ = NumericRangeQuery.NewIntRange("number", 1, 2, true, true);
var docs = searcher.Search(rangeQ);
Console.WriteLine(docs.Length().ToString()); // prints 2
rangeQ = NumericRangeQuery.NewIntRange("number", 13, 13, true, true);
docs = searcher.Search(rangeQ);
Console.WriteLine(docs.Length().ToString()); // prints 1
rangeQ = NumericRangeQuery.NewIntRange("number", 9000, 9998, true, true);
docs = searcher.Search(rangeQ);
Console.WriteLine(docs.Length().ToString()); // prints 0
Console.ReadLine();