SQLite format 3@ .  ? ^ B 8Ed\%/sindexnumber_indexnumber_key_valuesCREATE INDEX number_index ON number_key_values(key)T!+kindextext_indextext_key_valuesCREATE INDEX text_index ON text_key_values(key)<Sindexkey_indexkeysCREATE INDEX key_index ON keys(key)H ']indexspecies_indexspeciesCREATE INDEX species_index ON species(Z)W -uindexcalculator_indexsystems CREATE INDEX calculator_index ON systems(calculator)Q )mindexusername_indexsystems CREATE INDEX username_index ON systems(username)H #aindexctime_indexsystems CREATE INDEX ctime_index ON systems(ctime)T +qindexunique_id_indexsystems CREATE INDEX unique_id_index ON systems(unique_id)[##tableinformationinformation CREATE TABLE information ( name TEXT, value TEXT)*//tablenumber_key_valuesnumber_key_valuesCREATE TABLE number_key_values ( key TEXT, value REAL, id INTEGER, FOREIGN KEY (id) REFERENCES systems(id))$++tabletext_key_valuestext_key_valuesCREATE TABLE text_key_values ( key TEXT, value TEXT, id INTEGER, FOREIGN KEY (id) REFERENCES systems(id))sItablekeyskeysCREATE TABLE keys ( key TEXT, id INTEGER, FOREIGN KEY (id) REFERENCES systems(id)) otablespeciesspeciesCREATE TABLE species ( Z INTEGER, n INTEGER, id INTEGER, FOREIGN KEY (id) REFERENCES systems(id))P++Ytablesqlite_sequencesqlite_sequenceCREATE TABLE sqlite_sequence(name,seq)etablesystemssystemsCREATE TABLE systems ( id INTEGER PRIMARY KEY AUTOINCREMENT, -- ID's, timestamps and user name unique_id TEXT UNIQUE, ctime REAL, mtime REAL, username TEXT, numbers BLOB, -- stuff that defines an Atoms object positions BLOB, cell BLOB, pbc INTEGER, initial_magmoms BLOB, initial_charges BLOB, masses BLOB, tags BLOB, momenta BLOB, constraints TEXT, -- constraints and calculator calculator TEXT, calculator_parameters TEXT, energy REAL, -- calculated properties free_energy REAL, forces BLOB, stress BLOB, dipole BLOB, magmoms BLOB, magmom REAL, charges BLOB, key_value_pairs TEXT, -- key-value pairs and data as json data BLOB, natoms INTEGER, -- stuff for making queries faster fmax REAL, smax REAL, volume REAL, mass REAL, charge REAL)-Aindexsqlite_autoindex_systems_1systems b'M<uTrb(?jZ콋?}C{?.enO{"adsorption_surface_energy": -164.302, "adsorption_atomic_energy": -3.124, "absorption_structural_energy": -185.935, "absorption_energy": -18.509, "layer_distance": 1.416, "delta_charge_bader": 0.985, "dipole_bader": 6.703, "delta_charge_hirf": 1.942, "dipole_hirf": 13.209, "index": "(110)", "absorped_atom": "N", "absorped_pos": "b1"}{}1?V%҂?(brT@@nzH #M 71dd5a7857cd97687727dd42ad913bd5   systems   0 {dS=-# % absorped_pos ' absorped_atom  index # dipole_hirf/ delta_charge_hirf% dipole_bader1 delta_charge_bader) layer_distance/ absorption_energyE absorption_structural_energy= adsorption_atomic_energy? adsorption_surface_energy % absorped_posb1' absorped_atomN index(110) jN. # dipole_hirf@*k I^/ delta_charge_hirf?nO% dipole_bader@;dZ1 delta_charge_bader?Q) layer_distance?-/ absorption_energy2M(E absorption_structural_energyg=R$= adsorption_atomic_energyE%? adsorption_surface_energydl  version9 #M 71dd5a7857cd97687727dd42ad913bd5   @5 *0\  hecc  vasp   e>T.$|%absorped_pos 'absorped_atom index #dipole_hirf /delta_charge_hirf%dipole_bader1delta_charge_bader)layer_distance/absorption_energy Eabsorption_structural_energy=adsorption_atomic_energy? adsorption_surface_energy %absorped_pos'absorped_atom index .e>T.|#dipole_hirf /delta_charge_hirf%dipole_bader1delta_charge_bader)layer_distance/absorption_energy Eabsorption_structural_energy=adsorption_atomic_energy? adsorption_surface_energy