There are basically two ways to do so:
You can use a FULL OUTER JOIN
Full outer join
Conceptually, a full outer join combines the effect of applying both
left and right outer joins. Where records in the FULL OUTER JOINed
tables do not match, the result set will have NULL values for every
column of the table that lacks a matching row. For those records that
do match, a single row will be produced in the result set (containing
fields populated from both tables).
Some database systems do not support the full outer join functionality
directly, but they can emulate it through the use of an inner join and
UNION ALL selects of the "single table rows" from left and right
tables respectively. The same example can appear as follows:
SELECT employee.LastName, employee.DepartmentID, department.DepartmentName, department.DepartmentID
INNER JOIN department ON employee.DepartmentID = department.DepartmentID
SELECT employee.LastName, employee.DepartmentID, CAST(NULL AS VARCHAR(20)), CAST(NULL AS INTEGER)
WHERE NOT EXISTS (SELECT * FROM department WHERE employee.DepartmentID = department.DepartmentID)
SELECT CAST(NULL AS VARCHAR(20)), CAST(NULL AS INTEGER),
WHERE NOT EXISTS (SELECT * FROM employee WHERE employee.DepartmentID = department.DepartmentID)
Other-ways you can make a master view, witch contains all the distinct keys of all the tables, to LEFT JOIN with all the tables.
LEFT JOIN a using (date)
LEFT JOIN a1 using (date)
LEFT JOIN a3 using (date)
Sometime I prefer the second way to the FULL OUTER JOIN because FULL OUTER JOIN is not supported on many RDBMS and because there many of those who support it that do not optimize it well, Oracle's current version for example just threats a full outer join as the equivalent query showed in the citation, witch is very lossy for performances.